RU190470U1 - DEVICE FOR IRRADIATING TARGETS FOR THE PRODUCTION OF MEDICAL RADIONUCLIDES ON PROTON ACCELERATORS - Google Patents

Abstract

The utility model relates to devices for obtaining radioactive nuclides, namely, the means of operating a radionuclide for the production of radiopharmaceuticals used in nuclear medicine. contains a platform, in the middle part of which a vertical tunnel is made, under which a column with water is coaxial with it, while the installation platform is installed on the platform I have a wall to which vertical holders are attached with coaxial holes and bearing supports for the shaft, on the cylindrical surface of which there is a groove for the mounting disk, to which the leading sprocket located on the shaft is bolted to the shaft, which is kinematically connected to one shaft connected to a gearbox, an electric motor and an electromagnetic brake, while the coupling is located in a cylindrical protective casing, which on one side is attached a protective cover in the form of a convex truncated cone is attached to the second vertical holder to one of the vertical holders, on the other side of the holder; the sensor through the control unit is connected to an electric motor and an electromagnetic brake, at the bottom of the column under the driving sprocket on the axis a driven sprocket is mounted on which the chain is mounted, a holder is attached to the circuit A target in the form of an L-shaped part with a vertical target shelf, a support for a vertical shelf of the target holder is installed at the bottom of the column, so that the target axis passes the proton beam when the target is mounted on a vertical shelf of the target holder.

Description

The invention relates to devices for the production of radioactive nuclides, namely, the means of operating a radionuclide for the production of radiopharmaceuticals used in nuclear medicine. [G21G 1/00, H05H 13/00]

A DEVICE FOR CHANGE OF TARGETS IN THE ACCELERATOR [US 5608224 (A), publ. 03/04/1997], including a rotary drum with a plurality of holes for accommodating solid targets, a pipeline system for supplying gas and liquids to the irradiation zone and removing irradiated substances from the accelerator, a vacuum system for the working chamber, a sealing system for various structural elements of the device.

This device allows you to remotely change targets without disturbing the environment inside the accelerator, but has the following disadvantages: the greater complexity of the design, due to the versatility of the device, the large dimensions of the part of the device that is located in the working zone of the accelerator, that is, in the irradiation zone, which contributes to the appearance of parasitic induced radiation of high intensity and makes it difficult to use a beam of secondary radiation, the complexity of the design reduces the reliability of work especially evacuating and sealing the large number of movable and separable structural elements of the device. Also from the level of technology KNOWN KNOWN [application JP 57-34520, publ. 07.23.1982], comprising a housing, a system of sealing devices and a mechanism for changing targets. The mechanism for changing targets is made in the form of a movable rod with a rod holder attached at its end. The device includes a shutter for opening and closing the opening of the vacuum chamber. The shutter in the closed state covers the entire circumference of the movable rod, ensuring the tightness of the input while maintaining the mobility of the rod, and in the open state forms a hatch for entering and removing the holder with the target.

The disadvantages of this analogue is the great complexity of the design (the presence of two vacuum-tight closures, a table with micrometric position adjustment, a long-stroke feed mechanism and target extraction), a cumbersome design due to the large length of the feed mechanism and target extraction, the lack of clear target fixation in the working position, low reliability vacuum seal systems due to the large number of movable seals.

The closest in technical essence is the TARGET KNOT [RU 2243610 C2, publ. December 27, 2004], comprising a housing, a system of sealing devices and a mechanism for changing targets, characterized in that the mechanism for changing targets is made two-way in the form of a swivel lever, on the opposite ends of which there are two slots for removable cassettes with targets installed by means of one stop in the working position on the axis of the path of transportation of the ionizing radiation beam, and the other on the axis of the position of changing the cassette with the target, the rotary lever being pivotally fixed with the possibility of turning and sealing the shaft is fixed in the housing, in the lid of which two membranes movable in the axial direction are placed, one on the axis of the working position, the other on the axis of the change of the cassette with the target, while the diaphragms are connected to the sealing and screwing devices that allow the target to be fixed in the working position position, and in the position of changing the cassette after compacting and fixing the socket, change the cassette with the target without disturbing the medium inside the accelerator. The main technical problem of the prototype is the difficulty of changing the cassette with the target, which involves feeding the cavity with the cassette atmospheric pressure, removing the nut with the plug and removing the cassette with the target, while after installing the new cassette with the target, the cavity with the cassette is locked and evacuated, only after that installation of a cassette with a target in the irradiation zone.

The technical result of the utility model is to reduce the complexity of the installation process and the removal of the target for its exposure.

This technical result of the utility model is achieved due to the fact that the device for irradiating targets for the production of medical radionuclides on proton accelerators contains a mechanism for changing targets with a shaft made rotatable and a target holder, characterized in that the mechanism for changing targets contains a platform in the middle the part of which is made of a vertical tunnel, under which a column of water is coaxial with it, with a mounting wall mounted on the platform, to which vertical de Residents with coaxial holes and bearing supports for the shaft, on the cylindrical surface of which there is a groove for the mounting disk, to which the driving sprocket is located with bolts, located on the shaft; electromagnetic brake, while the coupling is located in a cylindrical protective casing, which is on one side attached to one of the vertical holders, and with others Go to the reducer, to the second vertical holder is attached protective cover in the form of a convex truncated cone, to the other side of which is attached a selsyn sensor so that it is located coaxially with the selsyn receiver mounted on the shaft, while the selsyn sensor is connected to the electric motor through the control unit and an electromagnetic brake, at the bottom of the column, under the driving sprocket, an driven sprocket is mounted on the axis, on which the chain is attached, the target holder is attached to the chain in the form of an L-shaped part with a vertical olochkoy for a target at the bottom of the column is set to the vertical support shelves target holder, so that through the target when mounted on a vertical ledge target holder held sighting axis of the proton beam.

In particular, the vertical holders are connected at the top with a metal jumper. In particular, the counterparts of the position sensors are attached to the circuit, and the position sensors are connected to an electric motor and an electromagnetic brake through the control unit.

In particular, the column is installed on a stand, on the side of which there is a drain pipe communicating with the internal volume of the column.

Brief description of the drawings.

FIG. 1 shows the upper part of the target irradiation device for the production of medical radionuclides on proton accelerators.

FIG. 2 shows a schematic depiction of a device for irradiating targets for the production of medical radionuclides on proton accelerators.

On the figures: 1 - platform, 2 - vertical tunnel in the platform, 3 - mounting wall, 4 - vertical holders, 5 - bearing supports, 6 - shaft, 7 - mounting disk, 8 - bolts, 9 - drive sprocket, 10 - coupling, 11 - reducer, 12 - electric motor, 13 - electromagnetic brake, 14-cylindrical protective casing, 15 - protective casing in the form of a convex truncated cone, 16 - selsyn sensor, 17 - selsyn receiver, 18 - metal bridge, 19 - teeth of the drive sprocket, 20 - chain, 21 - target holder, 22 - counterparts of position sensors, 23 - d Positioners, 24 - column, 25 - water, 26 - driven spindle axis, 27 - driven sprocket, 28 - support, 29 - target, 30 - beam sighting axis, 31 - stand, 32 - drain nipple.

Implementation of the utility model.

The device for moving and fixing the target holder contains a platform 1, in the middle part of which there is a vertical tunnel 2. A mounting wall 3 is installed on the platform 2, to which vertical holders 4 with coaxial holes and bearing supports 5 for the shaft 6 are attached. On the cylindrical surface of the shaft 6 A groove is made for the mounting disk 7, to which a driving sprocket 9 located on the shaft 6 is bolted to 8.

On the one hand, a coupling 10 is attached to the shaft 6, which is successively kinematically connected with a gearbox 11, an electric motor 12 and an electromagnetic brake 13, while the coupling is located in a cylindrical protective casing 14 which is attached to one of the vertical holders 4 , and on the other hand, to the gearbox 11. To the second holder 4, a protective cover 15 is attached in the form of a convex truncated cone, to the other side of which the selsyn sensor 16 is attached so that it is coaxial selsyn receiver 17 mounted on shaft 6.

The vertical holders 4 on the top are connected by a metal jumper 18.

The teeth 19 of the drive sprocket 9 is worn on the chain 20, and the chain should be located above the vertical tunnel 2.

An L-shaped target holder 21 is attached to the circuit 20, and the counter parts of the 22 position sensors 23 are also attached to the circuit.

Chain 20 together with the holder of the target 21 is lowered into the column 24 with water 25.

At the bottom of the column 24 on the axis 26 is installed driven sprocket 27 for the chain 20.

Also, a support 28 of the holder 21 of the target 29 is mounted at the bottom of the column, so that the axis of sight 30 of the proton beam passes through the target 29.

Column 24 is installed on the delivery 31, the side of which is the drain pipe 32.

Selsin sensor 16 and selsyn receiver 17 are connected to the information inputs of the control unit (not shown in the figures), the control outputs of which are connected to the electric motor 12 and the electromagnetic brake 13

In alternative embodiments of the claimed technical solution, position sensors may be connected to the control unit, the counter parts of which are attached to the circuit 20.

The device irradiation targets for the production of medical radionuclides on proton accelerators works as follows.

The initial position of the device: the L-shaped target holder is located in the space of the vertical tunnel 2, the column 24 is filled with water 25. In the initial position of the claimed device on the vertical shelf of the L-shaped holder 21 install the target 29, so that when you move the target holder 21 in the zone irradiation target 29 did not arbitrarily move and did not fall from the holder 21.

To move the holder 21 with the target 29, the electric motor 21 is set in motion, which through the gearbox 11, the coupling transmits rotation to the shaft 6, the driving sprocket 9 with the chain 20 and the driven sprocket 27 and the holder 21 with the target 29 are lowered into the column 24

The rotation of the shaft 6 captures a pair of sensor 16 sensors and one of the receiver 17 selsins, which transmit data on the rotation of shaft 6 to the control unit.

When lowering the holder 21 with the target 29 into the irradiation zone, the control unit transmits control signals to the electric motor 21 to switch off and the electromagnetic brake 13 to activate and smoothly extinguish the moment of inertia of the shaft 6, coupling 10, gearbox 11 and electric motor 12, the kinetic energy of circuit 21 with holder 21 and target 29.

The control unit is configured so that after extinguishing the energy of the system, the vertical shelf of the holder 21 smoothly touches the support 28 and the target 29 hits the axis of sight of the proton beam.

After irradiation of the target 29 turn on the electric motor 12 and lift the holder 21 with the target 29 into the space of the vertical tunnel 2 for its removal and installation of the new target 29.

The claimed technical result is achieved due to the fact that the design of the device provides the movement of the holder 21 with the target 29 in the irradiation zone, which is at a safe distance from the platform 1, which allows to simplify and reduce the complexity of the process of removing and installing the target 29.

Claims (4)

1. Device for irradiating targets for the production of medical radionuclides on proton accelerators, containing a mechanism for changing targets with a shaft made rotatable and a target holder, characterized in that the mechanism for changing targets contains a platform in the middle part of which a vertical tunnel is made, under which is coaxially it is located a column of water, while on the platform mounted mounting wall, to which are mounted vertical holders with coaxial holes and bearing supports for the shaft, on a cylindrical The cusp surface of which is made a groove for the mounting disk, to which the leading sprocket located on the shaft is bolted, on the one side a coupling is attached to the shaft, which is sequentially kinematically connected with a gearbox, electric motor and an electromagnetic brake, while the coupling is located in a cylindrical protective the casing, which on the one hand is attached to one of the vertical holders, and on the other to the gearbox, is attached to the second vertical holder a protective skin x in the form of a convex truncated cone, to the other side of which a selsyn sensor is attached so that it is located coaxially with the selsyn receiver mounted on the shaft, while the selsyn sensor is connected to an electric motor and an electromagnetic brake at the bottom of the column under the driving sprocket at the bottom of the sensor the axle is installed driven sprocket, on which the chain is worn, to the chain is attached the target holder in the form of an L-shaped part with a vertical shelf for the target, a support for vertical shelves is installed at the bottom of the column and the target holder, so that the target axis passes through the target proton beam when mounted on a vertical shelf of the target holder. 2. The device according to p. 1, characterized in that the vertical holders on top are connected by a metal jumper. 3. The device according to claim 1, characterized in that the counterparts of the position sensors are attached to the circuit, and the position sensors are connected to an electric motor and an electromagnetic brake via a control unit. 4. The device according to claim 1, characterized in that the column is mounted on a stand, on the side of which is a drain pipe communicating with the internal volume of the column.

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