RU195816U1 - Installation for product irradiation - Google Patents

Abstract

A utility model relates to a device for irradiating products for testing their radiation resistance, namely, dose resistance. An apparatus for irradiating products includes a housing with walls of protective material with a conical reinforcement for protecting the housing and a cylindrical insert for installing the irradiated products with a radiation source attached to a supporting platform inside the housing. The insert is movable in a cylindrical through horizontal channel of the housing and consists of three blocks of protective material of the same thickness with the walls of the housing. Moreover, the distance between the outer edges of the two nearest blocks is equal to the length of the housing. The installation also includes a holder of the radiation source, configured to move the radiation source in the vertical cylindrical channel of the housing. The technical result is to simplify the design, minimize electromagnetic interference and interference in the test objects, reduce material consumption. 3 s.p. f-ly, 5 ill.

Description

The utility model relates to the field of radiation engineering, and more specifically to stationary radioisotope installations with a movable irradiator and can be used to irradiate various targets in the electronic and other industries for testing their radiation resistance, namely dose resistance.

A device for irradiating targets is known (RF patent for the invention No. 2176831 IPC G21 K 5/00, published January 10, 2001) containing a radiation source, a camera with a loading hatch and an irradiated target placed inside it, while the radiation source is installed in the collimator, and the camera is installed with the possibility of its movement.

A disadvantage of the known device is the relative complexity of installing the radiation source and the irradiated target due to their separate placement, respectively, in the collimator and in the chamber with the loading door.

Known gamma installation for radiation processing of objects (RF patent for the invention No. 2414761 IPC G21 H 5/00, published March 20, 2011), containing a rectangular irradiator with a number of radiation sources mounted on the frame, a drive for moving the irradiator, installed with the possibility bringing to the irradiation or storage position any individual section or the entire irradiator with fixation in a predetermined position, and radiation protection with the irradiator storage.

The disadvantages of the known gamma installation, as a stationary radioisotope installation with a movable irradiator, are the complexity and high material consumption due to its intended use only for radiation-biological and radiation-chemical processes, the presence of a drive for moving the irradiator and a separate storage of the irradiator.

The closest technical solution (prototype) to the claimed object is a gamma installation for radiation exposure of block objects (RF patent for the invention No. 2262144 IPC G21 H 5/00, published 10.10.2005), containing an irradiation chamber with isotopic radiation sources in the irradiator , a system for moving the irradiator and the irradiated object in the form of a suspended pushing conveyor, a control and radiation protection system, while the isotopic sources in the irradiation chamber are placed in two planar irradiators that are mounted in parallel about each other with the possibility of successive free passage of blocks with the irradiated object along all sides of the irradiator with the provision of two-sided irradiation.

The disadvantages of the known device are a complex system for supplying the irradiated objects to the irradiation chamber, the presence of a number of stationary emitters, requiring a labyrinth radiation protection system.

The task to which the utility model is directed is to create a device in which these shortcomings are eliminated, namely, simplifying the installation design, simplicity, convenience and high reliability of operation, ensuring radiation safety with simple means, reducing material consumption and cost.

These problems are solved by creating an installation for irradiating products, comprising a housing with walls of protective material and a radiation source, equipped with a cylindrical insert for installing irradiated products, placed with the possibility of movement in a cylindrical through horizontal channel of the housing and consisting of three blocks of protective material of the same thickness with the walls of the housing, while the distance between the outer edges of the two nearest blocks is equal to the length of the housing, the installation is also equipped with a source holder and radiation, which is arranged movably in a vertical cylindrical housing bore and a conical body protection amplification.

In the particular case of execution, the housing is equipped with bearing rails located on both sides of the through horizontal cylindrical channel along the axis of the housing, providing movement of the cylindrical insert.

In the particular case of execution, a groove is made in the cylindrical insert, with a depth equal to half its diameter and the supporting platform.

In the particular case of execution, lead is used as a protective material.

The proposed utility model is illustrated by drawings, where in FIG. 1 shows a general view of the camera in the position for storing and mounting the plates; FIG. 2 is a general view of the chamber in the irradiation position; FIG. 3 is a general view of a cylindrical insert; FIG. 4 is a section AA, in FIG. 5 - section BB.

1-5, the positions indicate the following:

1 - installation casing;

2 - walls of the installation casing;

3 - through horizontal cylindrical channel;

4 - horizontal axis of the housing;

5 - a vertical cylindrical channel;

6 - vertical axis of the housing;

7 - conical reinforcement of the housing;

8 - cylindrical insert;

9 - block of protective material;

10 - holder of the radiation source;

11 - radiation source;

12 - block of protective material;

13 - the groove of the cylindrical insert;

14 - interchangeable plate;

15 - reference platform;

16 - bearing guide.

The apparatus for irradiating products comprises a housing provided with walls of protective material of a given thickness h, the housing is cylindrical in shape and provided with a through horizontal cylindrical channel along the axis of the housing, a second vertical cylindrical channel whose axis is perpendicular to the axis of the housing, and in size a to the horizontal through cavity a cylindrical channel, and a conical reinforcement of the housing protection along the axis of the vertical cylindrical channel 6. The installation for irradiating products is equipped with a cylindrical insert oh, equipped with three blocks of protective material of the same thickness h as the walls of the casing, two extreme blocks are located at a distance l from the central block equal to the length of the casing, and a holder of a radiation source equipped with a block of protective material of the same thickness h as the walls of the casing . The cylindrical insert is provided with a groove depth of half its diameter and a supporting platform. The apparatus for irradiating products is equipped with interchangeable plates mounted on a supporting platform by means of connectors (not shown conventionally).

Installation for irradiation of products operates as follows.

The installation for irradiating products is equipped with a radiation source, which will always be inside the camera both in storage mode and during irradiation. Two fixed positions of the radiation source are provided: the upper one for storage and the lowest one for irradiation, while transferring from one position to another is done by manually moving the holder of the radiation source. The installation of products on the supporting platform of the cylindrical insert is performed outside the case with the leftmost position of the cylindrical insert, while the radiation source is in the highest position (see Fig. 1). To start the irradiation process, a cylindrical insert with installed irradiation products is manually moved to the extreme right position by a distance of l – h, the holder of the radiation source is also manually moved to the lowest position for irradiation, while all openings in the chamber are protected by blocks, providing a normal radiation environment from the outside cameras. Unloading of products for irradiation after the end of the irradiation process is carried out in the reverse order - the holder with the radiation source is moved to its highest position and fixed, allowing the cylindrical insert to move to the far left position. The product irradiation unit is ready for the next loading.

The facility can be used, for example, to irradiate active products of the electronic component base containing semiconductor structures (diodes, transistors, thyristors, optocouplers, microcircuits, etc.) when testing radiation resistance to the effect of an absorbed dose of low-intensity ionizing radiation (less than 0.1 rad /from). As a radiation source, for example, planar sealed sealed radionuclide sources of gamma (beta) radiation based on Co ⁶⁰ , Ba ¹³³ , Cs ¹³⁷ , Sr ⁹⁰ isotopes with an activity of 8.1 mCi, 54 mCi, 27 mCi, 270 can be used mCi, respectively. During the irradiation process, electrical power can be supplied to the products and electrical parameters can be measured using additional measuring equipment. The measurement of the absorbed radiation dose can be carried out, for example, using a small-sized ionization chamber or thermoluminescent dosimeters.

The technical result when using the utility model is to simplify the design, improve ease of use and manufacturability, minimize electromagnetic interference and interference in the test objects, reduce material consumption and cost of the product.

Claims (4)

1. Installation for irradiating products, comprising a housing with walls of protective material and a radiation source, characterized in that it is equipped with a cylindrical insert for installing irradiated products, placed with the possibility of movement in a cylindrical through horizontal channel of the housing and consisting of three blocks of protective material of the same thickness with the walls of the casing, while the distance between the outer edges of the two nearest blocks is equal to the length of the casing, the installation is also equipped with a holder of the radiation source, which disposed movably in a vertical cylindrical housing bore and a conical body protection amplification. 2. The device according to p. 1, characterized in that the housing is equipped with bearing rails located on both sides of the through horizontal cylindrical channel along the axis of the housing, providing movement of the cylindrical insert. 3. The device according to p. 1, characterized in that in the cylindrical insert there is a groove with a depth equal to half its diameter, and a supporting platform. 4. The device according to claim 1, characterized in that lead is used as a protective material.

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