WO2019004866A1 - Article irradiation unit (variants) - Google Patents

Abstract

The invention relates to the field of disinfecting and sterilizing different materials, such as, for example, medical instruments or foodstuffs, by radiation treatment. The technical result of the claimed invention is an increase in capacity without detriment to treatment quality. This technical result is achieved in that in an article irradiation unit according to a first variant, comprising a radiation source, and a tunnel equipped with a radiation protection system, which encompasses portions of a conveyor system from an irradiation area to loading and unloading areas, the conveyor system is multi-tiered and comprises at least two conveying devices arranged one above the other which move in the same direction and are designed to be capable of moving at different speeds relative to each other and to the radiation source. The distance in height between the load-bearing surfaces of the conveying devices is adjustable and is from 50 to 1500 mm. In an article irradiation unit according to a second variant, the conveyor system is configured in the form of at least two conveying devices arranged parallel to each other in a horizontal plane, which move in the same direction and are designed to be capable of moving at different speeds relative to each other and to the radiation source.

Description

 Unit of radiation processing of objects (options)

The invention relates to the field of sanitization and sterilization of various materials, such as medical instruments or food, by radiation processing.

 According to patent RU 121446, a block of radiation treatment of objects with an accelerated electron beam is known, which contains a high-frequency electron accelerator, individual radiation protection, providing absorption of bremsstrahlung from the accelerator and from the irradiation zone, a tunnel for moving the objects through the irradiation zone, the transport system in the form of a reversing carriage, providing moving the treatment objects through the irradiation zone, while the block is equipped with a device for turning over and moving the treatment objects out of the zone after a unilateral manual ultrasonic inspection irradiation in the unloading zone to repeated irradiation of objects from the opposite side, formed as a manipulator, consisting of a drive rod of the container.

 A disadvantage of the known device is low productivity, the complexity of the design of the transport system.

 According to U.S. Patent 3,224,562, a conveyor system contained in a device for treating objects with penetrating radiation, including an endless conveyor, an envelope radiation source in the vertical direction and consisting of two chains connected by transverse ties, to which two boxes can hook with hooks, each of which turns around sprocket forming parallel vertical sections on both sides of the radiation source, through which each moving pair of boxes passes.

 A disadvantage of the known device is low productivity, design complexity, inability to use in the horizontal plane.

The closest to the claimed technical solution is the product irradiation system known for US 5994706, which includes a radiation source, a tunnel equipped with a radiation protection system, covering parts of the conveyor system from the irradiation area to loading and unloading areas, a conveyor system consisting of a first conveyor intended for transporting products from the loading zone through the irradiation zone to the unloading zone and having a trajectory with four turns and a second conveyor located perpendicular to the straight sections of the first conveyor system located between pairs of adjacent turns.

 A disadvantage of the known device is low performance.

The technical result of the claimed invention is to increase productivity without reducing the quality of processing.

 The technical result is achieved by the fact that in the radiation processing unit of the objects, including the radiation source, a tunnel equipped with a radiation protection system, covering parts of the conveyor system from the irradiation area to loading and unloading areas, according to the first embodiment of the invention, the conveyor system is multilevel and contains at least , two conveyor devices placed one above the other, moving in the same direction and arranged to move at different speeds relative to each other cursing and relative to the radiation source. The height distance between the bearing surfaces of the conveyor devices is adjustable and ranges from 50 to 1500 mm.

 In the radiation processing facility of an object according to the second embodiment of the invention, the conveyor system is made up of at least two conveyor devices moving parallel to each other in a horizontal plane and moving in different directions relative to each other and a radiation source .

Since each object should receive a normalized dose when irradiated with an electron beam or X-rays, the dose of radiation is governed by the intensity and time of exposure, and the possible thickness of the treated layer, depending on the density of the processed product, can reach large values, the volume of the working chamber of the radiation processing unit; there is a need to use the energy of the radiator as efficiently as possible. In order to efficiently and fully utilize the energy of the radiation source, the conveyor system, according to the first embodiment of the invention, is multi-layered and contains at least two conveyors arranged one above the other, moving in one direction, which allows to improve the performance of the device due to the increase in the number of simultaneously processed objects.

 Fulfilling the event of technological necessity and a sufficient width of the tunnel, according to the second embodiment of the invention, of a conveyor system in the form of at least two conveyor devices arranged parallel to each other in a horizontal plane, also increases the productivity of the device due to an increase in the number of simultaneously processed objects, thereby facilitating the flow of products on conveyor devices and receiving products after processing.

 Since the objects being processed on the conveyor device closer to the radiation source are subjected to more intensive processing, and the energy of the radiation source is partially extinguished, the conveyor devices according to the first and second embodiments of the invention are capable of moving with different speeds relative to each other and relative to the radiation source , while conveyor devices that are farther from the radiation source, move more slowly. At the same time, the speed mode of each conveyor device when processing products with electrons also has a range from 0.1 to 1.5 m / s, and the speed mode of each conveyor device when processing products under X-rays and has a speed mode from 0.1 to 1 m \ s The speed limit is adjusted depending on the radiation intensity, type of radiation source, as well as the size and density of the processed products.

Due to the fact that the penetrating ability of X-rays and gamma radiation in products with a density of 0.2 to 2 units ranges from 300 to 1500 mm, it seems possible to use the entire thickness of the penetrating radiation of both x-ray and gamma, if you place the boxes on single-stage conveyor on each other in the case of vertical exposure and next to each other in the case of horizontal exposure. However, as a result of studies of the absorbed dose by the uniformity of energy penetration into the depth of production, we determined the pattern of increase in the heterogeneity coefficient of the absorbed dose depending on the increase in the thickness of the processed product. A negative effect would be a very large distribution coefficient of the absorbed dose between the outermost boxes. In this case, you will have to repeatedly skip for irradiation boxes from different rows, which will affect the uncertainty received doses in products. The claimed technical solution in the form of a multi-tiered conveyor solves the problem of ensuring the uniformity of the absorbed dose while increasing throughput. Since the thinner the processed product, subject to its processing by X-rays, as well as gamma radiation, the more uniform the absorbed dose.

 The essence of the claimed invention is illustrated by drawings:

 FIG. 1 shows a unit for radiation processing of objects made in accordance with the first embodiment of the invention.

 FIG. 2 shows a unit for radiation processing of objects made in accordance with the second embodiment of the invention.

 FIG. 3 and 4 show the distribution of the absorbed dose by an item with a density of one and a thickness of 10 cm.

 FIG. 5 and 6 show the distribution of the absorbed dose by an item with a density of one and a thickness of 20 cm.

 The unit for radiation processing of objects contains a radiation source 1, a tunnel equipped with a radiation protection system, covering parts of the conveyor system 2 from the irradiation area to loading and unloading areas, where, according to the first embodiment of the invention, the conveyor system 2 is multilevel and contains at least two placed one above the other conveyor device 3.

 The unit for radiation processing of objects, including the radiation source 1, a tunnel equipped with a radiation protection system, covering parts of the conveyor system 2 from the irradiation area to loading and unloading areas, where the conveyor system 2 is made in the form of at least two conveyor belts parallel to each other devices 3.

 In the unit for radiation processing of objects made in accordance with the second embodiment of the invention, the devices arranged one above the other may be displaced relative to each other in the diagonal direction.

A unit for radiation processing of facilities with the declared conveyor system, it is possible to place it as compact as possible in the cramped industrial premises of previously constructed facilities. To reduce the size of the unit, it is necessary to use as efficiently as possible the passage of service personnel to service parts of the accelerator, and also conveyor systems supplying products under the irradiator. At the same time, the tunnel-labyrinth can be used both for conveying products through the conveyor system and for passing personnel to the accelerator. In operating mode, when supplying products under the accelerator, the multilevel conveyor has a total height ranging from 1 to 3 m. for passing personnel to the accelerator. The preferable width of the working surface of the conveyor on each tier is from 300 to 600 mm, the maximum size of the box that will move along the conveyor is 400x500mm. Adjusting the speeds of conveyor devices relative to each other can be done in various ways.

Claims

FORMULA  1. A unit for radiation processing of objects, including a radiation source, a tunnel equipped with a radiation protection system, covering parts of the conveyor system from the irradiation area to loading and unloading areas, characterized in that the conveyor system is multi-tiered and contains at least two placed one above the other conveyor devices moving in the same direction and configured to move at different speeds relative to each other and relative to the radiation source.  2. The block of radiation processing of objects by a beam of accelerated electrons according to claim 1, characterized in that the distance in height between the bearing surfaces of conveyor devices is adjustable and ranges from 50 to 1500 mm.  3. A unit for radiation processing of objects, including a radiation source, a tunnel equipped with a radiation protection system, covering parts of the conveyor system from the irradiation area to loading and unloading areas, characterized in that the conveyor system is arranged as parallel to each other in a horizontal plane, at least two conveyor devices moving in the same direction and configured to move with different speeds relative to each other and relative to the radiation source.