RU170300U1 - APPLICATOR CHANNEL Multiplier - Google Patents

Abstract

The utility model relates to medical equipment, namely to the field of contact gamma therapy, and can be used as a device for selectively connecting a tube to transport a gamma radiation source to one of the applicator channels. It includes a front panel on which openings with slots are located in a semicircle for fixing the flexible tubes for transporting the source. A fixed plate is mounted on the carrier frame of the device. Between the fixed plate and the front panel is installed, with the possibility of rotation and fixing in the desired position, a curved tube. The tube is connected to the storage and made with the possibility of combining the outlet with the axis of any of the fixation sockets of the flexible tubes. The repository includes two channels for hosting the source and the source simulator. A curved tube is connected to the storage via an adapter mounted on the end of the storage. The openings of the storage channels are aligned with the openings of the adapter channels. Inside the adapter, all the channels connecting it to the storage are combined into one channel, the outlet of which is connected to the inlet of the curved tube. In this case, the adapter is made of the same material with the storage, and the diameter of the adapter is equal to the diameter of the storage. Increases the compactness of the device when using multi-channel storage. 1 s.p. f-ly, 6 ill.

Description

The utility model relates to medical equipment, namely to the field of contact gamma therapy, and can be used in gamma therapy devices to provide selective connection of a tube for transporting a gamma radiation source to one of the applicator channels.

In the case of the use of contact radiation therapy, carried out according to the principle of automatic source supply, multichannel applicators can be used to form a uniform dose field in the target. Moreover, for each case, a different number of applicators installed at different points in the target area can be used to deliver one or more sources of gamma radiation. Gamma radiation sources are delivered to the applicators via flexible tubes connected to various sockets made on the front panel of the applicator channel multiplier. Many different modifications of applicator channel multipliers are known from the prior art. For example, a multiplier of applicator channels is known, including a front panel, on the outside of which, in several rows horizontally and vertically, a plurality of slots are made for fixing flexible source transportation tubes, as well as two fixed tubes with output channels of a source or source simulator connected to the storage, this front panel is made with the ability to move in horizontal and vertical directions with selective fixation in one of several positions, each of which provides eschenie one of the plurality of source output channel transporting a flexible tube fixing nests one of the fixed tubes. Such designs include an applicator channel multiplier manufactured by Eckert & Ziegler BEBIG, information on which is published on the website, https://www.youtube.com/watch?v=QL38b_Ay9Rg, 04/23/2015). In the known design for moving the front panel in the vertical and horizontal directions, a multi-drive mechanism is used, including many parts, which complicates the design, as well as the manufacture of the device. In addition, in the known device, after moving the source or the source simulator from the storage to the sockets for fixing the flexible tubes for moving objects, at least two separate channels are used, which requires positioning the desired front panel socket under each individual channel. This design is a disadvantage, since the presence of several fixed tubes complicate the design of the device, and the combination of the front panel sockets with the outlet openings of each of them increases the number of mechanical movements.

A multiplier of applicator channels is known from the prior art, including a front panel on which openings with slots are located in a semicircle for fixing the flexible tubes for transporting the source, as well as a fixed plate mounted on the device’s carrier frame, and mounted between the fixed plate and the front panel with the possibility of rotation and fixation in the desired position, a curved tube connected to the storage, and the curved tube is made with the possibility of combining the outlet with the axis of any and h nests of fixation of flexible tubes, in accordance with a given step of rotation of a curved tube (see US 4692628, 09/08/1987, prototype). The prototype simplified the mechanism of combining the outlet of the tube and the front panel jacks by using one curved tube when leaving the source from the storage, as well as by arranging the sockets for fixing on the front panel in a semicircle and ensuring the rotation of the curved tube along the nests line. However, the prototype did not solve the problem of storing several objects in the store and their selective movement to the channels of the applicators, while maintaining the smallest possible dimensions of the device structure.

The task to which the claimed utility model is directed is to expand the arsenal of technical means of a similar purpose, as well as to develop a simple and compact device that provides the functionality of several objects located in the storage.

The technical result consists in increasing the compactness of the device when using multi-channel storage.

The claimed technical result provides a channel multiplier for applicators, including a front panel, on which there are openings with sockets in a semicircle for fixing the flexible tubes for transporting the source, as well as a fixed plate mounted on the carrier frame of the device, and mounted between the fixed plate and the front panel with the possibility of rotation and fixing in the desired position, a curved tube connected to the store, and the curved tube is made with the possibility of combining the output hole The axis with the axis of any of the fixation slots of the flexible tubes, in accordance with a given step of rotation of the curved tube, the storage includes at least two channels, and the curved tube is connected to the storage through an adapter mounted on the end of the storage, combining the openings of the storage channels with the holes adapter channels, while inside the adapter all the channels connecting it to the storage are combined into one channel, the outlet of which is connected to the inlet of the curved tube, and the adapters made of the same material with the repository, and a diameter equal to the diameter of the adapter repository.

According to the claimed utility model, the adapter is made of two semicircular segments, while combining forming a cylinder.

The utility model is illustrated by drawings.

In FIG. 1 - multiplier channels of applicators, front view.

In FIG. 2 - channel multiplier of applicators, rear view.

In FIG. 3 - rotary hub, longitudinal section.

In FIG. 4 - rotary hub, top view.

In FIG. 5 - rotary hub, cross section.

In FIG. 6 - a mechanism for combining a curved tube with a socket for fixing flexible channels for transporting the source.

Description of the drawings.

The applicator channel multiplier includes a front panel 1, on which openings 2 with sockets 3 are located in a semicircle for fixing flexible source transportation tubes (not shown). A fixed plate 5 is mounted on the supporting frame 4. A curved tube 6 is mounted between the fixed plate 5 and the front panel 1, connected by the inlet 7 to the storage 8 through the adapter 22. The wheel 9 is also fixedly fixed on the fixed plate 5 (see Fig. 3) internal teeth. A rotatable hub 10 is mounted on the wheel 9 with the possibility of rotation, including a disk 11 connected to the wheel, and a horizontal bar 12 holding the curved tube in the direction of the arrangement of sockets 3 for fixing the flexible tubes. On the rear side of the disk 11 there is a seating surface 13 for an angular contact bearing 14, in the inner race of which a wheel 9 with internal teeth 18 is fixed. At the same time, a motor 15 is fixed on the disk 11, on the shaft 16 of which a gear 17 is installed, which engages with the internal teeth 18 of the wheel 9 (see Fig. 5). In addition, the encoder 19 is fixed on the disk 11 (see Fig. 4), the gear 20 of which also engages with the internal teeth 18 of the wheel 9. The storage 8 includes at least two channels 21 for receiving the source and the source simulator. The curved tube 6 is connected to the store through an adapter 22, mounted on the end of the store 8, with a combination of the openings of the channels of the store with the holes of the channels of the adapter. Inside the adapter, all the channels connecting it to the storage are combined into one channel 23, the outlet of which is connected to the inlet of the curved tube 6. A guide tube 24 is installed in each socket 3, on the opposite side of the front panel, coaxially to socket 3 (see Fig. . 6). Behind the guide tubes 24 on the electromagnetic coils 25, a pressure plate 27 spring-loaded by means of compression springs 26, from the side of the guide tubes, with hollow centering sleeves 28, into which the guide tubes 24 are guided to an incomplete depth from the front side, is provided. Hollow centering bushings openings from the curved tube side made conical, with a decrease in the diameter of the cone in the direction of the pressure plate (not shown).

Implementation of a utility model.

The applicator channel multiplier is mounted in the upper part of the contact radiation therapy apparatus. In this case, the multiplier of the applicator channels is connected to the general power supply circuit and the system of automated computer control of the apparatus by means of the corresponding connectors and wires included in the multiplier design. According to the treatment plan, the desired number of applicators connected through flexible tubes to the sockets 3 is positioned in the target area of the tumor exposure. In this case, two or more channels 21 can be made in the storage 8. A gamma radiation source is placed in one of the channels, the other is a source simulator. In accordance with an embodiment of the utility model, several sources with different energies of emitted gamma-quanta can be placed in the storage, for each of which an additional channel is made. According to the sanitary rules for working with sources of ionizing radiation, the store should provide an equivalent dose rate at a distance of 1 m from any part of the store surface not more than 10 μSv / h. Therefore, the calculation of the dimensions of the storage is carried out taking into account the requirements of sufficient protection from the most powerful radiation source used in the claimed device, for example, Co ⁶⁰ , both in radial and axial directions. For the manufacture of storage using a tungsten alloy with a density of not less than 17.9 g / cm ² . To ensure acceptable radiation protection from the source of Co ⁶⁰ in the radial and axial directions, the tungsten storage should be a cylinder about 200 mm long with the same diameter. In the claimed utility model, an adapter 22 is used to connect the inlet of the curved tube 6 to any of the channels of the storage 8, as well as a storage made of a tungsten alloy with the same diameter. Due to this design, the adapter 22, in addition to connecting the multiple channels of the store with the inlet of the curved tube, can also perform a protective function, and therefore the length of the store can be reduced by an amount equal to the thickness of the adapter, for example, 40 mm. Thus, the compactness of the device when using multi-channel storage is increased. For convenience, the implementation of multiple channels combined into one channel inside the adapter 22, it can be made in the form of two semicircular segments combined in a cylinder. The movement of the source and the source simulator from the storage channels to the applicator channels is carried out by means of cables connected to the corresponding drives. Functionally, the channel multiplier is designed to selectively connect the tube for transporting the gamma radiation source to the selected combination of sockets 3, in strict sequence, according to the treatment plan loaded into the memory unit, connected using specialized software to the processor of the contact radiation therapy device. Before starting the supply of the source from the storage 8, at the command of the processor, electromagnetic coils 25 are triggered, pressing the spring plate 27 against the back of the front panel 1, after which the engine 15 starts, transmitting torque to the gear 17 with a given number of revolutions. The gear 17, interacting with the teeth of the wheel 9, moves the rotary hub 10, in which the curvilinear tube 6 is rigidly fixed, to the predetermined alignment of its outlet with the axis of one of the sockets 3. It rotates the rotary hub together with the fixed ones on the disk 11 by the motor 15 and the encoder 19. When the hub 10 is rotated, the gear 20 of the encoder 19, which is connected to the processor, also rotates inside the gear 9, providing a readout of the angle of rotation of the curved tube, which contributes to the most full-time monitoring of the position of the hub. When combining the outlet of the curved tube 6 with the axis of one of the sockets 3, the electromagnetic coils 25 are turned off and the plate 27 under the action of the springs 26 is moved to its original position. In this case, the hollow sleeve 28 with a tapered hole covers a curved tube 6, fixing it coaxially with the corresponding guide tube 24 and the socket 3, in which the corresponding guide tube is installed. The taper of the hollow sleeves ensures accurate alignment of the joined tubes 24, 6. After fixing the curved tube in the desired position, the source or source simulator is moved through the combined channels of the storage 6, adapter 22 and tube 6 into the corresponding channel of the applicator connected via a flexible tube to one of the sockets 3 After delivery of the source or source simulator to the desired target area, at the end of the implementation of their functional purpose, for example, testing the passage of channels, or RCTs applicator length (simulator source), or delivery of the required dose of irradiation (source) produces movement of the source or source simulator back into the store. After the source is returned back to the store, the entire operation cycle of the applicator channel multiplier described above is repeated for the next channel prescribed by the treatment plan. Moreover, in accordance with the treatment plan, up to twenty flexible tubes for transporting a source or a source simulator can be fixed on the front panel 1. The claimed device provides delivery to any of the flexible tubes of the source or source simulator in any sequence the required number of times. Moreover, the presence in the claimed utility model of the adapter 22, mounted on the end of the store 6, combining all the channels of the store in one channel, makes it possible to use the store with an increased number of channels, for example up to four. In this embodiment of the utility model, it is possible to deliver different sources with different energies of emitted gamma rays to any of the flexible tubes as many times as necessary, without increasing the dimensions of the device.

Claims (2)

1. The multiplier of the applicator channels, including a front panel, on which there are openings with sockets in a semicircle for fixing the flexible tubes for transporting the source, as well as a fixed plate mounted on the carrier frame of the device, while between the fixed plate and the front panel it is installed, with the possibility of rotation and fixing in the desired position, a curved tube connected to the storage, and the curved tube is made with the possibility of combining the outlet with the axis of any of the fixation sockets of flexible ubock, in accordance with a given rotation step of the curvilinear tube, characterized in that the storage includes at least two channels for placing the source and the source simulator, and the curvilinear tube is connected to the storage through an adapter mounted on the end of the storage, combining the openings of the storage channels with the holes adapter channels, while inside the adapter all the channels connecting it to the storage are combined into one channel, the outlet of which is connected to the inlet of the curved tube, etc. than the adapter is formed of one material storage and diameter equal to the diameter of the adapter repository. 2. The multiplier of the applicator channels according to claim 1, characterized in that the adapter is made of two semicircular segments, when combining forming a cylinder.

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