RU207670U1 - Research shielding chamber for working with long irradiated products - Google Patents

Abstract

The utility model relates to a research shielding chamber and can be used in research nuclear reactors. The chamber contains two adapter boxes in the upper part of the chamber, through one of which it is possible to load the long irradiated products into the receiving channel located under it in the lower part of the chamber, which is capable of completely accommodating the long irradiated products. Another adapter box is made with the possibility of unloading containers from the chamber with products removed from long devices and working platforms located at the upper and lower working levels and equipped with observation radiation-protective windows, copying manipulators and two coaxially located rotary-clamping mechanisms for fixing and rotating around the vertical axis of long irradiated products. In addition, the chamber contains a vertical lift for moving along the vertical axis of a long irradiated product placed in the receiving channel. The technical result is an increase in efficiency in solving applied research problems. 9 p.p. f-ly, 1 dwg

Description

The utility model relates to the field of nuclear technologies, in particular to the protective chambers, and can be used at operating or projected research nuclear reactors for performing various technological operations associated with the assembly, disassembly and cutting of long-length highly active products irradiated in the reactor.

Known protective chambers, consisting, as a rule, of a chain of radiation protective boxes, located both vertically (RU 2112288, RU 2186432) and horizontally [OST 95 234-84 Radiation protective chambers. Types, main parameters and sizes]. These chambers are mainly of a narrow direction (materials science or isotopic) and, as a rule, operate with small, simple and unchanged structures in terms of dimensions and activity. These chambers are, as a rule, highly specialized, in which only a certain set of technological operations with highly active structures can be carried out, which are determined by a set of laboratory and technological equipment placed in the chamber, in particular: acceptance and dispatch, assembly and disassembly, cleaning of highly active structures, manufacturing in limited volume of sealed sources of ionizing radiation.

The disadvantage of such protective chambers is the inability to carry out technological operations (associated with disassembly and restoration) and research work with structurally different lengthy (more than 10 meters) high-activity reactor experimental channels and non-standard equipment, which require the presence of large equipment inside the chamber, which is installed and mounted. at the stage of construction of the chamber.

The closest analogue of the proposed technical solution is a protective chamber (patent RU 2112288), which includes radiation-protected boxes isolated from each other, equipped with technological equipment and located in a vertical shaft, while the box for cutting highly active long-length structures is located in the lower part of the working area of the mine and is equipped with a vertical guiding channel passing through the boxes located above, containing the transfer gates. The location of the cutting box for high-activity long-length structures in the lower part of the shaft and the presence of a vertical, guiding channel passing through all the boxes located above allows the high-active long-length structures to be lowered into the lower part of the protective chamber and only there to carry out the main “dirty” operations for the manufacture of ionizing radiation sources. The design of the chamber for the manufacture of sources of ionizing radiation is made in such a way that highly active elements of only a certain design pass sequentially through all working boxes, starting from the lower, most "dirty" box, into which a full-scale high-activity structure containing radioactive assemblies extracted from the reactor enters through a vertical guide channel. , and ending with the upper, "clean" box, from where finished products are unloaded in the form of sources of ionizing radiation. The design of the chamber is designed to extract sources of ionizing radiation (IRS) from special irradiated products and its structural elements ensure this technological process.

The disadvantage of this chamber is that the proposed design allows you to work with a long irradiated product only of a certain design and only in the lower box, and the upper boxes do not provide the ability to work with extended structural elements of long irradiated products. At the same time, at a research nuclear facility there is a need to carry out operations for the assembly and disassembly of lengthy non-standard equipment, including loop experimental channels and irradiation devices, which have high technological performance and scientific value, and for which the necessary technological operations cannot be performed in boxes limited size.

The problem solved by the claimed technical solution is to increase the volume and quality of applied scientific research due to the maximum concentration of technological equipment that provides technological operations for the assembly, disassembly and cutting of long-length highly active products irradiated in the reactor and providing the possibility of simultaneous remote technological operations inside the chamber on several workplaces, which will ensure a reduction in the time required for cutting long-length products, minimization of dose loads on service personnel and reduction of the amount of radioactive waste.

To eliminate these disadvantages in a research protective chamber for performing work with long irradiated products, characterized by the presence of a housing that provides a sealed engineering barrier with biological shielding, it is proposed to place in the chamber:

- two adapter boxes in the upper part of the chamber, through one of which to load the long irradiated products into the receiving channel located under it in the lower part of the chamber, capable of completely accommodating the long irradiated products, and through the other transition box to unload containers from the chamber with the containers removed from the long devices by products;

- working platforms located at the upper and lower working levels, equipped with viewing radiation-protective windows, copying manipulators and two coaxially located rotary-clamping mechanisms for fixing and rotating around the vertical axis of long irradiated products, while intended for remote execution of technological operations inside the chamber with long irradiated products placed in the receiving channel and / or channels for temporary storage;

- a vertical lift for moving along the vertical axis of a long irradiated product placed in the receiving channel.

In nine special cases of the implementation of a research protective chamber, it is proposed:

- in its upper part, make a side compartment for maintenance and repair of a power manipulator and a lifting crane;

- under the protective chamber, place a monjus of liquid radioactive waste, to which inclined drainage pipelines are connected, collecting liquid radioactive waste in the receiving channel and temporary storage channels;

- the protective chamber is designed with the possibility of installing a milling machine in it;

- the protective chamber is made with the possibility of installing in it a bath for washing fragments of long irradiated products;

- the protective chamber is made with the possibility of installing in it a device for examining and photographing long irradiated products and their fragments;

- the protective chamber is made with the possibility of installing an electric furnace with a split body;

- the protective chamber is made with the possibility of installing a turner;

- the protective chamber is made with the possibility of installing the slipway;

- the protective chamber is made with the possibility of installing a dust collector. The essence of the proposed technical solution is illustrated by graphic material (figure). In the figure, the following reference designations are adopted: 1 - receiving channel; 2 - temporary storage channel; 3 - lifting crane; 4 - power manipulator; 5 - copying manipulator; 6 - rotary clamping mechanism; 7 - transitional box; 8 - viewing window; 9 - protective plug; 10 - milling machine; 11 - dust collector; 12 - washing bath; 13 - electric furnace; 14 - tilter; 15 - slipway; 16 - device for inspection and photographing; 17 - vertical lift; 18 - camera body; 19 - biological protection; 20 - table top; 21 - drainage pipeline; 22 - side compartment; 23 - podkamerny room; 24 - room for collection of liquid radioactive waste discharges; 25 is a lengthy experimental device.

The protective chamber is located vertically and has four levels. On two working levels, work platforms are installed with protective viewing windows 8, copying manipulators 5 and technological equipment for assembling, disassembling and cutting long-length highly active products irradiated in the reactor and working with their fragments. On the upper level, there is the transport and transmission equipment of the camera. On the lower level, there are channels for temporary storage of long, highly active structures and their elements.

In the upper part of the chamber, in the ceiling, two transition boxes 7 are installed for transferring long highly active experimental products to the chamber using protective technological containers (or unloading and loading machines) located outside the chamber, and a protective transport opening, hermetically sealed with a protective plug 9 and intended for transfer into the chamber of large-sized high-level structures, replaceable technological equipment and removal of solid radioactive waste. Also, in the upper part of the chamber, a lifting crane 3 is mounted, which ensures transport and technological operations with the structures supplied to the chamber, and a power manipulator 4 for remote execution of technological operations for installing, removing, transporting products, their elements, opening / closing covers of temporary storage channels and etc. The upper part of the chamber has a side compartment for maintenance, changing grippers and repairing the power manipulator and crane.

The working area of the chamber has two levels - at the upper working level, a protective viewing window with a copying manipulator ( lowering) of a long structure to the lower working level.

The lower working level of the chamber has three working sections with viewing windows 8 and copying manipulators 5 and a tabletop on which technological equipment for inspection, revision, cutting and other technological operations with long, highly active experimental structures is located, including a milling machine 10, a dust collector for collecting cutting products 11, a rotator 14 for rotating product fragments in a vertical plane, an electric furnace with a split body 13, a bath for washing product fragments 12, a device for examining and photographing products and their fragments 16, rotary clamping mechanisms 6 and other special equipment required for carrying out research and development with long experimental items. The receiving channel 1 and channels for temporary storage of long irradiated products 2 are brought out to the level of the tabletop, installed vertically in radiation-protective casings in the lower zone of the chamber.

The under-chamber room 23 is intended for fastening the equipment located under the tabletop 20 of the lower working level of the chamber and includes a receiving channel 1, temporary storage channels 2, rotary-clamping mechanisms 6, devices for draining washing solutions, etc., a vertical lift 17.

Biological protection 19 of the walls of the research shielding chamber and viewing windows 8 provide complete radiation protection of personnel from radiation sources located in the research shielding chamber.

The research security chamber allows the following technological operations to be carried out remotely:

- reception of long irradiated products 25 into the research protective chamber;

- fragmentation (cutting or disassembly) of long irradiated products 25;

- collection of products formed during cutting of long irradiated products 25 (dust, shavings) into a dust collector 11;

- washing of fragments of long irradiated products 25 from residues of liquid radioactive waste;

- external examination and photographing of fragments of long irradiated products 25;

- extraction of removable blocks with fuel elements from the body of long irradiated products 25;

- extraction of fuel rods from removable blocks;

- completing the cassettes with fuel rods;

- completing canisters with fragments and elements of long irradiated products 25;

- moving cassettes and canisters to temporary storage channels;

- unloading of canisters from the research protective chamber;

- collection, temporary storage of liquid and solid radioactive waste;

- decontamination of the inner surfaces of the research containment chamber and technological equipment;

- removal of residues of liquid metal coolants of liquid radioactive waste from long irradiated products;

- other special operations according to the requirements of experimental problems.

The handling of long irradiated products 25 in the research protective chamber is carried out as follows. The products are received using external loading devices (not shown in the diagram) through the transition box 7 by lowering them into the receiving channel 1. After receiving the long irradiated product 25 with the help of the vertical elevator 17, the long irradiated product 25 is set at the required height, fixed in the rotary clamping mechanisms 6 upper and lower working level of the chamber. The upper part of the long irradiated product 25 is cut off and, with the help of a lifting crane 3, is moved to the workstations of the lower level for cleaning from residues of liquid or solid radioactive waste; by preliminary heating using an electric furnace 13 with a split casing), a bundle of fuel elements (for fuel assemblies) or removable blocks with experimental samples (for experimental ampoule channels and irradiation devices) and are installed in the temporary storage channel 2 in front of the protective viewing windows 8 and copying manipulators 5. When With the help of copying manipulators 5 and available special equipment, technological operations are performed for washing, assembling-disassembling, sorting elements and fragments of long irradiated products 25 and placing them in transport containers for subsequent transportation.

The technical result is an increase in efficiency in solving applied research problems.

Claims (10)

1. Research protective chamber for performing work with long irradiated products, characterized by the presence of a housing that provides a sealed engineering barrier with biological shielding, characterized in that the chamber contains: two adapter boxes in the upper part of the chamber, through one of which lengthy irradiated products are loaded into a receiving channel located under it in the lower part of the chamber, capable of fully accommodating a long irradiated product, and through another transition box, containers with products removed from long devices are unloaded from the chamber; working platforms located on the upper and lower working levels, equipped with viewing radiation-protective windows, copying manipulators and two coaxially located rotary-clamping mechanisms for fixing and rotating around the vertical axis of long irradiated products, while intended for remote execution of technological operations inside the chamber with placed long irradiated products in the receiving channel and / or channels for temporary storage; a vertical lift for moving along the vertical axis of a lengthy irradiated product placed in the receiving channel. 2. Research shielding chamber according to claim 1, characterized in that in its upper part there is a side compartment for maintenance and repair of the power manipulator and lifting crane. 3. The research containment chamber according to claim 1, characterized in that a liquid radioactive waste monjus is placed under the protective chamber, to which inclined drainage pipelines are connected, collecting liquid radioactive waste in the receiving channel and temporary storage channels. 4. Research protective chamber according to claim 1, characterized in that it is configured to install a milling machine therein. 5. Research shielding chamber according to claim 1, characterized in that it is configured to install in it a bath for washing fragments of long irradiated products. 6. Research protective chamber according to claim 1, characterized in that it is configured to install a device for inspection and photographing of long irradiated products and their fragments. 7. Research shielding chamber according to claim 1, characterized in that it is configured to install an electric furnace with a split body. 8. Research protective chamber according to claim. 1, characterized in that it is made with the possibility of installing a turner. 9. Research protective chamber according to claim 1, characterized in that it is configured to install a slipway. 10. Research protective chamber according to claim 1, characterized in that it is configured to install a dust collector.

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