RU175766U1 - Installation for radiation treatment of objects with gamma radiation - Google Patents

Abstract

The utility model relates to devices for the radiation treatment of various objects, can be used both in a stationary form and as a mobile object mounted on the basis of a truck’s chassis, and is designed to study the effect of gamma radiation on these objects. The technical result is to increase the degree of protection of personnel from radiation while maintaining the effectiveness of gamma radiation by making the irradiation unit in the form of a cylindrical rotor with the possibility of rotation and location inside the radiation source, filling the central inner cavity of the rotor with lead, as well as supplying the working window with a protective membrane, and protective and emergency screen for a rotor with a radiation source. The technical result is achieved by the fact that the installation for radiation processing of objects in the form of gamma radiation contains a protective case, an irradiation chamber made in the form of a closed volume formed by external and internal walls with a cavity inside to accommodate the irradiator block, made with the possibility of changing position, and drive unit travel of the irradiator. In this case, the installation is equipped with an irradiation chamber in the form of a container with a steel protective casing containing a rigid frame with uprights and a channel with a protective stopper designed to load a radiation source. At the bottom of the container is the main support with a ball bearing, on which the irradiation unit is vertically mounted in the form of a rotating cylindrical rotor with a radiation source located in a vertical channel made in the rotor wall. The central inner cavity of the rotor is filled with lead, and each radiation source in the form of a cesium isotope Cs is made with a diameter to height ratio of 1: 7.3. In addition, the rotor is equipped with a shaft mounted in the upper support of the rotor and connected by a drive through a gearbox with an electric motor located in the upper part of the container body, which ensures rotation of the rotor with a radiation source. A working window with a protective membrane is made in one of the walls of the container body. The rotor with the radiation source is equipped with a protective and emergency screen moving along the guides connected by the drive to the block of the lifting mechanism, equipped with a latch in the form of an electric coupling.

Description

The utility model relates to devices for the radiation treatment of various objects, can be used both in a stationary form and as a mobile object mounted on the basis of a truck’s chassis, and is designed to study the effect of gamma radiation on these objects.

It is known "Device for irradiating minerals" including the reactor core, the irradiation channel, the container and an additional filter of thermal neutrons, while inside the container there are filters of thermal and resonance neutrons, an additional filter of thermal neutrons surrounds the container and is installed in the irradiation zone, and between the container and the active The reactor zone contains an absorber of gamma rays of the reactor.

RF patent for the invention No. 2406170; IPC: G21K 5/00; D. publ. 12/27/2008

The well-known "Transformer of gamma-neutron radiation, which is a multilayer shell near the core of a nuclear reactor with a neutron reflector, the first layer of the shell is made of hydrogen-containing material with a thickness that slows down the neutrons to the energies characteristic of a typical nuclear explosion, and the second layer of the shell is located with the outer side of the hydrogen-containing layer and is made of a material with a large cross section for radiative capture of thermal neutrons with a thickness that provides characteristic For a typical nuclear explosion, the ratio of the doses of neutrons and gamma radiation.

RF patent for the invention No. 2559198, IPC: G21K 5/00; D. publ. 05/28/2014

The closest analogue to the technical solution proposed as a utility model is the "Installation for the radiation processing of bulk materials", containing a protective housing, an irradiator made with the possibility of horizontal movement along its axis, a removable storage of the irradiator, a protective movable tube with a support bracket, guide the movement of the bracket , an irradiation chamber with a loading and unloading aperture and a cover a swivel bracket, a support for the parts of the installation and actuators for moving the irradiator and tube and growth around its axis of the irradiation chamber, while the irradiation chamber is located on the inner end of the movable plug and is made in the form of a closed volume formed by the outer and inner walls with a cavity inside to accommodate the irradiator and a channel for its entry, the inner walls are made in the form of two paired with small bases truncated cones, and external ones in the form of a cylinder turning into a truncated cone, the small base of the cone forms the bottom of the chamber, in which the axis of rotation of the chamber, located in the socket, are cantilevered e of the swivel bracket mounted in the movable plug, the axis of the arm is located relative to the axis of the irradiation chamber at an angle of repose of the material being processed, while the irradiation chamber is arranged to move inside the protective housing while moving the movable plug on which the gear wheel is fixed, by which it kinematically connected with the irradiation chamber.

RF patent for the invention No. 2035077, IPC: G21K 5/00, date publ. 05/10/1995 g.

The technical task relates to the creation of a device for the effective impact of gamma radiation on various objects and while maintaining the reliability of protection of staff from radiation.

The technical result is to increase the degree of protection of personnel from radiation while maintaining the effectiveness of gamma radiation by making the irradiation unit in the form of a cylindrical rotor with the possibility of rotation and location inside the radiation source, filling the central inner cavity of the rotor with lead, as well as supplying the working window with a protective membrane, and protective and emergency screen for a rotor with a radiation source.

The technical result is achieved by the fact that the installation for the radiation treatment of objects in the form of gamma radiation contains a protective case, an irradiation chamber made in the form of a closed volume formed by external and internal walls with a cavity inside to accommodate the irradiator block, made with the possibility of changing position, and drive unit travel of the irradiator. In this case, the installation is equipped with an irradiation chamber in the form of a container with a steel protective casing containing a rigid frame with uprights and a channel with a protective stopper designed to load a radiation source. At the bottom of the container is the main support with a ball bearing, on which the irradiation unit is vertically mounted in the form of a rotating cylindrical rotor with a radiation source located in a vertical channel made in the rotor wall. The central inner cavity of the rotor is filled with lead, and each radiation source in the form of a ^137Cs cesium isotope is made with a diameter to height ratio of 1: 7.3. In addition, the rotor is equipped with a shaft mounted in the upper support of the rotor and connected by a drive through a gearbox with an electric motor located in the upper part of the container body, which ensures rotation of the rotor with a radiation source. A working window with a protective membrane is made in one of the walls of the container body. The rotor with the radiation source is equipped with a protective and emergency screen moving along the guides connected by the drive to the block of the lifting mechanism, equipped with a latch in the form of an electric coupling.

Installation for radiation processing of objects in the form of gamma radiation is illustrated by a drawing diagram and contains:

1. The body of the protective container.

2. The internal cavity of the protective container, filled with lead.

3. A rotor configured to rotate.

4. The source of radiation of cesium 137.

5. The internal cavity of the rotor, filled with lead.

6. The rotor shaft.

7. The lower support of the rotor.

8. Ball bearing of the lower rotor support.

9. The rotor drive electric motor

10. The rotor drive gear

11. Drive pinion

12. Protective cover for limit switches

13. The upper support of the rotor

14. The loading channel in the container for radiation sources with a protective plug

15. Safety and emergency screen

16. The node of the lifting mechanism of the protective and emergency screen

17. Guide of the protective and emergency screen

18. The frame.

19. The racks of the frame.

20. The working window of the container with a protective membrane.

21. Weatherproof cover.

22. The lever mechanism for fixing the rotor in the idle position.

The housing of the protective container 1 is designed to protect the surrounding space from gamma radiation. The walls of the container are made of steel and have an open cylindrical shape on one side, and a flat face on the other side. The upper and lower ends are closed by covers. All parts of the container are welded together.

Lead, designed to absorb gamma rays, is poured into the internal cavity 2 of the protective container 1. Lead is poured into the inner cavity 2 of the container during assembly.

The rotor 3 with the radiation source 4 is made to rotate using an electric motor 9 and is designed to output the radiation source 4 into the area of the working window 20 of the protective container 1. The rotor 3 is located inside the protective container 1, made of steel and has the shape of a cylinder. The inner cavity 5 of the rotor 3 is also filled with lead. The ends of the rotor are closed by covers. All parts of the rotor are welded together, a special channel with a radiation source 4 is placed. The radiation source 4 generates gamma radiation and is located in a special vertical channel made in the wall of the rotor 3. The radiation source is loaded through the loading channel 14 in the container 1, when combined with channel in the wall of the rotor 3 in its idle position. The shaft 6 of the rotor 3 is designed to transmit torque from the electric motor 9 through the gearbox 10 and the drive gear 11 of the drive to the rotor 3. The shaft 6 is made of steel. The lower part of the shaft is welded to the rotor 3. In the upper part of the shaft, the driven gear of the drive is fixed. The rotor 3 is mounted on the lower support 7 in the housing 1 of the protective container, the lower support 7 is made of high strength steel and equipped with a ball bearing 8, designed to provide minimum rotational force of the rotor 3, and the electric motor 9 of the rotor drive 3 is designed to create torque. The electric motor 9 is supplied from a single-phase 220 V alternating current network. The gearbox 10 of the rotor drive 3 is designed to reduce the speed of rotation of the pinion gear 11 and to increase the torque. The drive gear 11 is designed to transmit torque to the driven gear of the shaft 6 of the rotor 3 and to reduce the speed of rotation.

The protective cover 12 of the limit switches is designed to protect the limit switches of the position of the rotor 3 from mechanical damage and from electric shock. The upper support 13 of the rotor is designed to orient the shaft 6 of the rotor in a vertical position and to ensure its rotation. In the place where the rotor support and the rotor shaft are mated, an stuffing box seal is installed. The loading channel 14 is equipped with a protective plug, which closes it after installing the radiation source 4. The protective and emergency screen 15 is designed to protect the environment from gamma radiation in case of an emergency (malfunction of the rotor drive, disconnection from the electric network, etc.). In the idle state, the protective screen 15 is always in the lower position, the working window 20 of the protective container 1 is closed by a protective membrane. In working condition, the safety-emergency shield 15 rises to the upper position by means of the lifting mechanism assembly 16 and is fixed by the electric coupling, while the working window 20 of the protective container 1 is open. When the electric clutch is de-energized, the safety-emergency shield 20 lowers to the lower position under the action of gravity, the environment is protected from gamma radiation regardless of the position of the rotor. The case of the protective and emergency screen 15 is made of steel in the form of a hollow shield, the inner cavity is filled with lead.

The guide 17 of the protective and emergency screen 15 is designed to orient the latter in a given plane. The guide 17 is made of a metal profile. The node of the lifting mechanism 16 with the fixing electric clutch of the safety and emergency screen 15 is designed to lift the safety and emergency screen 15 and fix it in the working position, as well as to automatically bring the protective and emergency screen 15 to an inoperative position in the event of an emergency.

The installation frame 18 is made of steel pipe and consists of two parts. The lower part of the frame is a support, and the upper part protects the installation from possible damage. The main components and assemblies of the installation are fixed on the frame elements. The posts 19 of the frame 18 are part of the frame and are also made of steel pipe. The working window 20 with a protective membrane is designed to provide free passage of gamma radiation, with the withdrawal of sources in the working area. The working window 20 is closed with a thin steel membrane from the ingress of foreign particles. The protective cover 21 from atmospheric precipitation serves to protect the units and assemblies of the installation from atmospheric precipitation (rain, snow, etc.) The protective cover 21 is made of steel. The lever mechanism 22 is used to fix the rotor in the idle position and to disengage the driven gear, to allow the rotor 3 to rotate into an idle state manually when an emergency occurs.

A facility for radiation processing of objects in the form of gamma radiation mounted in a protective chamber, which provides biological protection of personnel from ionizing radiation. The facility is also equipped with a control panel and radiation technical equipment, signaling the position of the radiation sources and the level of radiation in the protective chamber.

The installation for radiation processing of objects in the form of gamma radiation works as follows: the set dose rate is set, and the required irradiation time is set, the electrical equipment control system enables the electric motor 9 to be turned on, which, using the gearbox 10 and the rotor drive 3 with the radiation source 4 by controlling rotation the rotor leads the radiation source 4 into the area of the working window 20 of the protective container 1. In this case, the electrical control system includes a lifting mechanism assembly MA 16 with a fixing electric clutch of the protective and emergency screen 15, raises the protective and emergency screen 15 and fixes it in the working position. After irradiation, the process is repeated in the reverse order, the rotor 3 drive is turned on, it is turned into an inoperative position, that is, the radiation source 4 is removed from the working window by rotating the rotor 3, the working window is closed in the protective housing 1 of the installation with a protective membrane, then the lifting mechanism assembly 16 with a fixing electric clutch lowers the protective and emergency screen 15 along the guides 17.

The installation for radiation processing of objects in the form of gamma radiation, proposed as a useful model, allows for uniform irradiation of objects of study with gamma radiation while maintaining a high degree of protection for service personnel from this radiation.

Claims (1)

Installation for radiation processing of objects in the form of gamma radiation, containing a protective housing, an irradiation chamber made in the form of a closed volume formed by external and internal walls with a cavity inside to accommodate the irradiator block, made with the possibility of changing position, and the actuator moving the irradiator block, characterized the fact that the installation is equipped with an irradiation chamber in the form of a container with a steel protective casing containing a rigid frame with uprights and a channel with a protective stopper intended for loading ki of the radiation source, while in the lower part of the container is the main support with a ball bearing, on which the irradiation unit is vertically mounted in the form of a rotating cylindrical rotor with a radiation source located in a vertical channel made in the wall of the rotor, the central inner cavity of the rotor is filled with lead, and each radiation source in the form of cesium ¹³⁷ isotope Cs adapted diameter to height ratio of 1: 7.3, furthermore provided with a rotor shaft mounted in the upper support of the rotor and connectedness drive through a gearbox with an electric motor located in the upper part of the container body that rotates the rotor with the radiation source; finally, a working window with a protective membrane is made in one of the walls of the container body; in addition, the rotor with the radiation source is equipped with a protective and emergency screen moving along a guided coupled drive with a lifting mechanism unit provided with a latch in the form of an electric coupling.

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