RU92739U1 - INSTALLATION FOR RELOADING RADIOACTIVE SUBSTANCES - Google Patents

Abstract

1. Installation for transferring radioactive substances from a container with a lower loading hole into a container with an upper loading hole or in the opposite direction, containing a plate in which a loading hole is placed on a support, and a transport technological system for combining the loading holes of the containers with the loading hole and overload of radioactive substances. ! 2. Installation for the transshipment of radioactive substances according to claim 1, characterized in that the plate is additionally provided with a hole over which a device is installed for removing and installing a device for sealing the container with the top loading hole. ! 3. Installation for the transshipment of radioactive substances according to claim 1, characterized in that the height of the containers installed sensors of radioactive radiation to monitor the position of the loaded radioactive substances.

Description

The utility model relates to the field of atomic engineering, and specifically to devices for transshipment of radioactive substances (hereinafter referred to as RV) from containers.

At the enterprises involved in the processing and transportation of radioactive substances, for reloading, there are radiation protection chambers equipped with viewing systems and remote maintenance facilities (manipulators, remote-controlled cranes, etc.). At some enterprises, at nuclear power plants (NPPs) in particular, such work is carried out directly in the reactor halls (I.A. Reformatsky. Hot and isotopic laboratories. Ed. 2-nd. M., Atomizdat, 1971, pp. 77-80 )

Installation for the transshipment of radioactive substances includes a transport technological system for moving containers and transhipment of radioactive substances, which is located in a protective chamber equipped with remote control. At the same time, work on reloading radioactive substances requires a large amount of preparatory measures to ensure the safety of personnel.

Design and construction of radiation shielding chambers require large financial costs in the hundreds of millions of rubles. Things are even more complicated at existing enterprises, as the construction and connection of new cameras to existing and existing technological chains is associated with great technological difficulties and significant financial costs.

The inventive utility model allows for the safe conduct of work on reloading of explosives from containers with various loading systems outside the protective chambers while improving economic performance.

Installation for transshipment of radioactive substances from a container with a lower loading hole into a container with an upper loading hole or in the opposite direction, containing a plate in which a loading hole is placed on a support, and a transport technological system for combining the loading holes of containers with a loading hole and reloading of radioactive substances .

A hole may be additionally made in the plate, over which a device is installed for removing and installing a device for sealing the container with the upper loading hole.

To monitor the position of the reloading explosives along the height of the containers, radiation sensors can be installed.

The design of the parts and components of the installation, their relative position and the connections between them provide the opportunity to carry out a safe overload of explosives outside the protective chambers.

The installation ensures the safety of maintenance personnel, does not require stopping work in adjacent rooms associated with the need for personnel withdrawal, and eliminates the need for the construction of special expensive radiation-protective chambers with remote control means, i.e. improves the economic performance of work on reloading of radioactive substances. The design of the installation allows you to place it in any room equipped with a crane for moving and installing transport containers.

The drawing of Figure 1 shows a diagram of the inventive utility model, where: 1 - support; 2 - plate; 3 - hole for removing and installing the device for capping the container; 4 - a container with a top loading hole; 5 - container with a lower loading hole; 6 - reloading hole; 7 - trolley; 8 - electric drive; 9 - rail track; 10 - winch; 11 - automatic capture; 12 - remote drive; 13 - gamma sensors.

The installation for the transshipment of radioactive substances consists of a support (1), a plate (2) with an opening (3) for removing and installing a device for sealing the container with the upper loading hole (4) and a loading hole (6) for connecting the cavities of the container (4) and container with lower loading hole (5). The transport technological system in this embodiment includes a trolley (7) mounted on a rail (9) and moved by an electric drive (8), and a winch (9).

Installation works as follows. The container with the upper loading hole (4) is mounted on the trolley (7). Previously, the bolts securing the device for sealing (stopper) of the container (4) are turned out and removed. The cart with the container (4) is fed to the first position (in the drawing, item 1) by means of the drive (8), where, using the automatic grip and remote drive (12), the container stopper is drawn into the hole (3). After that, the trolley (7) with the container (4) moves to the second position (in the drawing - pos. II), where the loading opening of the container (4) is combined with the reloading hole (6) in the plate (2) on which the container has already been installed with bottom loading hole (5). Using a winch (10), an automatic grip (11), mounted on the winch cable (10), is lowered into a container (4), where the ampoule from the RV is captured and then reloaded into the container (5) or the ampoule is disconnected from the RV if transshipment from container (5) to container (4). Control over the movement of the ampoule with the PB is carried out using, for example, gamma sensors (13) mounted at the height of both containers.

At the end of the operation, the sealing device (gate) of the container (5) is closed, and the container (4) with the help of the trolley (7) is moved to the first position, where, using the winch (12), the cork is installed in the container (4). After that, the container (4) extends to its original position and the plug bolts are wrapped.

Claims (3)

1. Installation for transferring radioactive substances from a container with a lower loading hole into a container with an upper loading hole or in the opposite direction, containing a plate in which a loading hole is placed on a support, and a transport technological system for combining the loading holes of the containers with the loading hole and overload of radioactive substances. 2. Installation for the transshipment of radioactive substances according to claim 1, characterized in that the plate is additionally provided with a hole over which a device is installed for removing and installing a device for sealing the container with the top loading hole. 3. Installation for the transshipment of radioactive substances according to claim 1, characterized in that the height of the containers installed sensors of radioactive radiation to monitor the position of the loaded radioactive substances.