CS241832B1 - Multi-detector scintillation detection unit - Google Patents

Abstract

The multi-detector scintillation detection unit consists of at least two pairs of well scintillators (1) in the shape of, for example, a cube and a corresponding number of photomultipliers (2), which are located in individual sections separated by partitions (4) in a common housing (3). The arrangement of the multi-detector scintillation detection unit forms a compact unit with easy assembly, maintenance and possible repair. The design solution of the scintillation detectors guarantees their tight placement in the housing and, for example, for a five-detector detection unit, it is possible to ensure the measurement of a cassette with ten samples in two steps, when all odd samples and then all even samples placed in the cassette are simultaneously measured first. The multi-detector scintillation detection unit according to the invention also meets the requirements for a gamma automaton solution in a desktop design with the smallest possible dimensions.

Description

The multi-detector scintillation detection unit consists of at least two pairs of well scintillators (1) in the form of, for example, a cube and a corresponding number of photomultipliers (2) which are located in individual sections separated by partitions (4J). The design of the detectors ensures their tight fit in the housing and for example for a five-detector detector it is possible to measure the cassette with ten samples in two steps, when all odd samples and then all even samples are measured simultaneously. ^The multi-detector scintillation detection unit according to the invention also fulfills the requirements for the solution of a desktop gamma-automat with the smallest possible dimensions.

The invention relates to a multi-detector scintillation detection unit for measuring samples. labeled gamma-ray radionuclides in automatic transducers, so-called gamma-automatic machines.

In prior art devices for measuring samples labeled with radionuclides and gamma irradiation, scintillation detection units equipped with a single scintillation detector are used.

In recent years, talc has been manufactured by gamma machines equipped with several scintillation detectors, which significantly increases the productivity of measurement and evaluation of samples. These are gamma-automats, intended mainly for the measurement of samples labeled with ¹²⁵ J in radioimmunoassays RIA.

An example would be a detection system consisting of four separate scintillation detection units equipped with transversely well scintillation detectors. Each scintillation detector has its own measuring path and the common evaluation is controlled by a microprocessor.

The disadvantage of this embodiment is the size of the individual standard detection units, which does not allow the arrangement of the detection system to allow simultaneous measurement of a group of samples which are located close to each other.

It is also more difficult to install this detection system at the sample changer, since both the well axis of the scintillation detector and the axis of the cassette containing the measured ampoule must be identical and the distance of the individual scintillation detectors must match the arrangement of the vials in the cassettes.

Therefore, samples are spaced four or more apart in the cassette, which is disadvantageous in that samples from multiple cassettes are simultaneously measured or the cassettes need to be enlarged in size to increase the handling area of the cassette holder and the gamma-slot machine dimensions. In addition, cassettes are incomplete when measuring sample files, and evaluation requires both a more complex data processing algorithm and higher work organization requirements.

It is also known to provide three samples in three cassettes simultaneously. The detection unit consists of three well-type scintillation detectors in a common housing with photomultipliers. The assembly is movable in three mutually perpendicular directions and slid from below onto ampoules placed in stationary cassettes.

The disadvantage of the solution is the movement of the detector, which requires a more complex motion system of the drive and also increases the probability of failure.

Simultaneous measurement of samples in three cassettes also increases the demands on the data processing algorithm and on the work organization itself. Cartridges become incomplete when changing the file. The described solution also requires an increase in the vertical dimension of the gamma-slot machine, which is in contradiction with the current trend where, on the contrary, a table design with the smallest possible dimensions is required.

These disadvantages are overcome by the multi-detector scintillation detection unit according to the invention, which consists in that the multi-detector scintillation detection unit consists of at least two well-shaped polyhedral scintillators, for example a prism or cube, placed side by side and at least two a casing divided into individual sections by partitions, in each section there is a pair of well scintillator and corresponding photomultiplier.

The spatial arrangement of the multi-detector scintillation detection unit according to the invention forms a compact unit which enables easy assembly, maintenance and possible repair. The design allows simultaneous measurement of, for example, odd samples and subsequent measurement of even samples.

As a result, the algorithm for data processing and work organization is simplified. As an example, a five-detector scintillation detection unit can be provided that allows the measurement of a cassette of ten samples in two steps, as a result of minimizing the design dimensions of the scintillation detectors and their tight placement in the housing.

An embodiment of a multi-detector scintillation detection unit according to the invention is shown in the accompanying drawing in cross-section.

The multi-detector scintillation detection unit consists of three well-shaped scintillators 1 and three photomultipliers 2, which are located in a common two-piece housing 3. Each pair of well scintillator 1 and the corresponding photomultiplier 2 is placed in one section of the housing 3 separated by a partition. 4.

Multiple samples are measured at the same time using a multi-detector scintillation detection unit. Each scintillation detector operates independently, with its own measuring and evaluation path. The baffles 4 separating the individual scintillation detectors 1 and shielding them from each other. The maximum number of scintillation detectors in a detection unit is limited by the number of measurement paths.

Claims (1)

Subject A multi-detector scintillation detection unit, characterized in that it consists of at least two well scintillators (1) in the shape of a polyhedron, for example a prism or cube, and at least two photomultiplier (f2) which are placed in a housing (3) divided into individual sections by 4), in each section there is a pair of well scintillator (1) and corresponding photomultiplier (2). 1 sheet of drawings