SU1067967A1 - Device for loading irradiators of radioisotopic units - Google Patents

Abstract

A DEVICE FOR DOWNLOADING RADIO ISOTOPIC INSTALLATION FLASHLES, containing a protective movable unit with a loading opening, characterized in that, in order to accelerate and simplify the loading and unloading operations, an opening is made in the protective unit, in which there is a holder with cylindrical channels that are movable relative to the protective unit, with cylindrical channels corresponding to the loading opening, and corresponding to the loading opening, there is an opening that has a hole with cylindrical channels corresponding to the loading unit. block, and a gate valve to block the inlet opening, located under the movable yoke, and the protective unit is made 5 step And the movable holder and the damper positions are latches.

Description

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The invention relates to devices for loading irradiators of radioisotope plants, in which the isotope source of radiation is placed in special devices with irradiators of various configurations of a plane, such as a squirrel wheel, rod, ensuring the formation of a predetermined dose rate field.

A device for loading irradiators of radioisotope installations is known, comprising a flat irradiator, designed as a protective tracer with tubular cassettes in which radiation sources lj are placed. The traverse is equipped with a drive for moving the irradiator in a vertical plane for withdrawing it from the storage to the irradiation chamber.

For loading you: the radiation sources in the installation are provided with an assembly chamber located above the irradiation chamber with a 16 ton protective container. The assembly chamber is provided with a copy arm designed for remotely assembling tubular elements that are loaded into the container and then reloaded into the irradiator.

Such devices are very metal consuming, contain expensive equipment (manipulators, viewing windows with lead glass, etc.), their manufacture is associated with high material costs. In addition, remote work with sources with the help of manipulators does not provide sufficient reliability and safety of work. In case of operator fatigue, handler malfunction or for other similar reasons, the source or cassette can be dropped or incorrectly fixed in the working channels, which creates an emergency situation.

The closest technical solution to the invention is the working chamber of the irradiation unit, comprising a movable radiation protection (shielding) unit with loading holes JJZJ. When the block is moved, these holes are aligned with the traverse channels. Having installed the transport container on the seat of the sub-unit and moving it together with the container to align the holes with the traverse channels, the sources are transferred from the container to the storage channels.

Such an adaptation of the loading devices limits the possibilities of forming the radiation field, since it is suitable mainly for planar feeds with limited length and loading activity. This device is constructive, it is advisable to use in installations of self-protected type with a fixed feed.

The purpose of the invention is to accelerate and simplify loading and unloading operations.

The goal is achieved by the fact that in the device for loading irradiators of radioisotope installations containing a radiation unit mobile unit with a loading opening, the protective unit is made with an opening in which there is arranged a housing with cylindrical channels corresponding to the loading opening of the protective unit and a gate valve movable relative to the unit to block the inlet, located under the movable yoke, the protective block being stepped, and the movable yoke and the gate valve have a lock s position

Such an implementation of the device allows the loading of radiation sources into irradiators of any configuration (rod, planar, squirrel wheel) directly in the irradiation chamber with the possibility of forming any given sex dose rates.

Fig. 1 shows the proposed device for loading irradiators; section and node I; figure 2 - section aa in figure 1, fig.Z - view B in figure 1.

The device consists of a movable lashing of the 1st unit 1, a movable holder 2 (in this case, the holder is rotatable, but can also be made with horizontal longitudinal movement) mounted in the bearing supports of the unit. The block is stepped (see section 2) to close the gap between the support surfaces of the crosshead and the block. In it, a vertical cylindrical hole is bored at a distance R from the axis of rotation of the movable casing. Under the bearing surface of the movable casing in the block there is a slot cutout in which the gate valve 3 is placed, blocking or opening the loading opening of the block. Two clamps 4 are provided on the block, which ensure fixation of the movable casing and the slide gate in predetermined positions. In the movable casing there are four (maybe more or less depending on the number of protective caps) vertical cylindrical channels 6-9, located around the circumference with radius I relative to the axis of rotation of the cage. When the cage is rotated, the channels can be aligned with the loading opening of the block and secured with the latch 4. The device is mounted on the yoke, the centerpiece of its opening along the loaded cassette. A transport co-container with radiation sources is placed on top of the device. With the power of the device (for example, the stubs of the corresponding diameter and length), the loading channel of the container is centered along the opening of the protection unit 1. The movable area 2 is rotated and aligned with the help of the clamp 4 by the channel 9 with the opening of the unit. The gate valve 3 is set to the Open position, using a collet clamp lowered through the channel of the container and the opening of the block, seize the top cap and enter into the channel 9 of the movable yoke up to the stop. Gate valve is installed .. rolled to the Closed position. By inserting, the plug is released from the collet and the latter is lifted into the canal of the container. The movable yoke is rotated and fixed in the position of combining the channel of the yoke with from the version of the block. The gate valve is set to the Open position and the second protective cap is inserted into the channel 8 of the movable block B in the described sequence, and the third and, if necessary, subsequent caps are unloaded from the cassettes. The cassette is prepared for loading with radiation sources. The channel 6 is combined with the blocking of the block by the collar of the movable holder and fixed1 7 is ruled. Driving the container drum, emit radiation sources through the container loading channel and the channel of the loading device into the cassette in a predetermined sequence. Then, alternately combining channels 7, 8, and 9 of the movable cage with the opening of the block, the protective plugs are dropped. In the indicated sequence, the remaining cartridges are loaded with the loading device installed on them. The invention can be used in radioisotope installations for the vulcanization of heat-resistant tape and rubber-glass fabric and for the sterilization of blood transfusion systems. They can be replaced by the previously used in-set loading devices (hot cells, manipulators, etc.) when reloading radiation sources to compensate for activity. The application of the invention will reduce the loading time by 5070%, since additional work is excluded: disassembling the irradiator, delivering the cassettes, to the hot chamber (assembly chamber), remotely (using a manipulator) unloading the containers with sources onto the table and overloading them into the cassettes and transportation and loading of cassettes from the source and into the irradiator traverse. The invention allows for the handling of sources directly on the irradiator. This increases the safety of work, as the sources are discharged directly from the container to the feed without additional work and transportation. In addition, the invention reduces the cost of creating new radiation technology plants, as it eliminates the need for hot cells, manipulators. etc. The economic effect of using the device will be 150180 thousand rubles. for one radioisotope installation. Pn.1 FIG. 2

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Claims (1)

A device for loading irradiators of radioisotope installations, comprising a protective movable unit with a loading hole, characterized in that, in order to accelerate and simplify loading and unloading operations, an opening is made in the protective block, in which a holder movable relative to the protective block is provided with cylindrical channels corresponding to the loading hole a protective block, and a slide gate for closing the loading opening located under the movable holder, the protective block being made stepwise and under izhnaya clip and damper position are locks. 1 1067967