SU1635090A1 - Computation tomograph - Google Patents

Abstract

The invention relates to computed tomography using accelerator based radiation sources. The purpose of the invention is to reduce size and weight while maintaining speed. For this, radiation sources in the form of acceleration chambers 2 are placed in the gaps of the outer ring magnetic circuit 1 for a variable magnetic flux. The internal magnetic core 7 formed in the form of two parallel rings together with the spacer spacers 10 forms collimators of radiation sources and collimators of detector blocks 13, which are placed between the rings of the internal magnetic core 7. 3 Il. W you E 11 O- SO ate o che e o Fsch1

Description

This invention relates to computed tomography using accelerator based radiation sources.

The purpose of the invention is to reduce the size and weight while maintaining speed.

Figure 1 shows a diagram of the radiation-detection system of a computed tomograph; Figures 2 and 3 are, respectively, sections A-A and BB in Figure 1.

The computed tomograph contains an external annular magnetic circuit 1, in which accelerator air gaps are made with radiation sources in the form of accelerator chambers 2. The winding 3 of the magnetic conductor 1 is connected to the source 4 of a variable magnetic flux. Figure 1 shows the variable magnetic flux 5. The chambers 2 are located between the pole pieces 6. The inner magnetic circuit 7, in which a constant magnetic flux is created, is made of two rings: the upper 8 and the lower 9, separated by tungsten strips 10 . Collectively, the magnetic core 7 and the gaskets 10 form the collimators 11 sources and the collimators 12 detector blocks 13. A magnetic coil 7 is placed on the magnetic core 7 connected to the direct current source 15, which creates a magnetic flux 16 bias. In the center of the device is a controlled product 17.

With an odd total number of accelerating gaps for leveling the magnetic resistance on one semiring, an additional air gap should be made in an arbitrary place without an acceleration chamber.

Computing tomograph works as follows.

The alternating magnetic flux 5 in the annular external magnetic core is summed with the constant magnetic flux 16 of the internal annular magnetic circuit 7 and creates a vortex accelerating electric field in the accelerator chambers 2, which are located between the pole pieces that form the necessary configuration of the magnetic field in the gap. In this case, the alternating magnetic flux does not penetrate into the second annular magnetic circuit, since mutual flux compensation occurs.

The constant magnetic flux is closed along both ring magnetic circuits. When the magnetic fluxes are summed in the first annular magnetic circuit, the resulting magnetic fluxes of the upper and lower halves are out of phase. Thus, the moment of generation of radiation of the upper and lower halves are separated in time, which reduces the level of interference

on radiation detectors.

The radiation generated in the acceleration chambers 2 passes the collimators of 11 sources and through the collimators 12 blocks of detectors 13 formed by the internal

the magnetic conductor 7 for a constant magnetic flux and the spacers 10 are supplied to the detectors 13.

The signals from the detectors enter the data storage and processing system for the subsequent reconstruction of the image of the layer under study.

Claims (1)

Claims: A computed tomograph containing uniformly distributed around the circumference of the supporting structure of systems, each of which is formed by a radiation source, a detector unit, a source collimator, and a detector unit collimator, the data storage and processing system, which is, in order to reduce dimensions and weight while maintaining speed, the supporting structure is made in the form of two coaxially arranged and interconnected magnetic conductors. the outer ones of which are made in the form of a ring with N gaps, in which radiation sources made in the form of accelerators are located, the internal magnetic circuit is made in the form of two rings placed in planes parallel to the plane of the external magnetic circuit and symmetric with respect to it, between which external clearances The magnetic cores are fitted with 2N radiation absorbing strips, which, in combination with the rings of the internal magnetic core, form collimators of sources and detector blocks, with detector blocks placed between the rings of the internal magnetic conductor and every two nearest absorbing strips located in the zones of the adjacent gaps of the external magnetic circuit. Aa eight 6-6 ntrrrjem 4 X j 9 Fig 2 "9 Fm.Z 6-6