RU177410U1 - DEVICE FOR TRANSPORTING THE SOURCE TO THE APPLICATOR CHANNEL - Google Patents

Abstract

The utility model relates to medicine, namely to the field of brachytherapy and can be used to deliver a capsule with a gamma radiation source to the planned point of the applicator. A device for transporting a source to the applicator channel includes a cable consisting of two parts with different flexibility. At the end of the most flexible part, a capsule with a gamma radiation source is fixed. The least flexible part is made of twisted metal wires. The most flexible part is made of twisted cores, each of which consists of twisted metal fibers. Over the twisted wires of the least flexible part of the cable, a braid is applied with a step equal to the sum of the diameters of the wires included in the braid strand. Over the twisted cores of the most flexible part, a braid is applied with the same step as the braid of the least flexible part. In this case, the braid of the most flexible part includes a reduced number of wires, at least one wire. The technical result provided by the claimed utility model is to increase the accuracy of positioning of the radiation source in the channel of the applicator. 5 cp f-ly, 4 ill.

Description

The utility model relates to medicine, namely to the field of brachytherapy and can be used to move a capsule with a gamma radiation source to a planned point of the applicator through the supply channels, to deliver a dose of radiation to a tumor localized in human organs.

The level of technology.

The prior art device for transporting a source to the applicator channel, including a cable made of twisted wire cores, at the end of which is fixed a capsule with a gamma radiation source (RU 2357774, 10.06.2009). In the process of moving to the desired point on the applicator channel, the cable with the capsule fixed at its end changes the trajectory of movement depending on the shape of the channel, which includes both straight sections and curved ones. To prevent jamming of the movable cable in the curved portions of the channels, it should have sufficient flexibility from the side of the fixed capsule, but at the same time have a hard section pushing the capsule with the source along the channel. In the known design, the cable along its entire length is made of twisted wire cores of the same flexibility, which, if the cable is fully flexible, can lead to the cable losing its stability and bending it repeatedly when the capsule moves with acceleration, which can adversely affect the time and accuracy of positioning in the applicator . If the cable is made more rigid throughout its length, its movement in the curved sections of the applicator channel may be difficult. In this case, the reading of the distance of movement of the cable by the drive mechanism will not coincide with its actual position in the applicator channel, which may lead to inaccurate positioning of the capsule with the source in the channel.

A device is known from the prior art for transporting a source to the applicator channel, including a cable consisting of two parts with different flexibility and a capsule with a radiation source fixed at the end of the most flexible part, the least flexible part consisting of twisted metal wires, and the more flexible part is made twisted cores, each of which consists of twisted metal fibers, while the diameter of the more flexible part is less than the diameter of the less flexible part of the cable (US 6196964, 03/06/2001, prototype). The prototype provides free passage of the cable in the curved portions of the applicator channel by securing the capsule with the source on the more flexible part of the cable connected to the less flexible part. However, when passing through curved sections, the cable experiences bending loads, which can lead to deformations of the original cable shape in the areas of greatest bending stress. In connection with the formation of such deformations of the cable, its length will be shorter than the nominal length of the completely straight cable. Thus, the reading of the distance of movement of the cable by the drive mechanism will not coincide with its actual position in the applicator channel, which may lead to inaccurate positioning of the capsule with the source in the channel.

Disclosure of a utility model.

The problem to which the claimed utility model is directed is to develop a simple and reliable device for transporting the source to the applicator channel, as well as to expand the arsenal of tools for similar purposes.

The technical result provided by the claimed utility model is to increase the accuracy of positioning of the radiation source in the channel of the applicator.

Achieving the technical result provides a device for transporting the source to the applicator channel, including a cable consisting of two parts having different flexibility and fixed to the end of the most flexible part of the capsule with the radiation source, while the least flexible part is made of twisted metal wires, and the most flexible part of twisted cores, each of which consists of twisted metal fibers, while over the twisted wires of the least flexible part of the cable a braid is applied with a step, p the same sum of the diameters of the wires included in the braid strand, and over the twisted cores of the most flexible part, a braid is applied with the same step as the braid of the least flexible part, while the braid of the most flexible part includes a reduced number of wires, at least one wire .

According to the claimed utility model, the least flexible part of the cable consists of seven twisted steel wires, over which a braid is applied, the strand of which includes five steel wires with a winding angle of 60-75 °.

According to the claimed utility model, the direction of winding the braids of the least flexible part is made counterclockwise.

According to the claimed utility model, the most flexible part of the cable consists of seven twisted cores, each of which is twisted from seven steel fibers, with a braid over the twisted cores, a strand of which includes four steel wires with a winding angle of 60-75 °.

According to the claimed utility model, the direction of winding the braids of the most flexible part is made clockwise.

According to the claimed utility model, the most flexible and least flexible parts of the cable, as well as the capsule with the radiation source are interconnected by laser welding.

Description of the drawings.

The claimed utility model is illustrated by drawings.

In FIG. 1 side view of the least flexible part of the cable.

In FIG. 2 cross section of the least flexible part of the cable.

In FIG. 3 side view of the most flexible part of the cable.

In FIG. 4 cross section of the most flexible part of the cable.

A device for transporting a source into the applicator channel includes a cable consisting of two parts having different flexibility and a capsule with a radiation source (not shown) fixed at the end of the most flexible part. The least flexible part (Fig. 1, 2) consists of seven metal wires 2 twisted into the core 1, over which a continuous braid is applied in a single layer, counterclockwise, the strand 3 of which includes five steel wires 4 with a winding angle of 60-75 °. The step of winding the braid is equal to the sum of the diameters of the five wires that make up the braid of the least flexible part of the cable. The least flexible part of the cable with one of its ends is connected by laser welding to the most flexible part. Moreover, the most flexible part (Fig. 3, 4) consists of seven metal cores 6 twisted into a core 5, each of which is twisted from seven metal fibers 7. Over the twisted cores 6 of the most flexible part of the cable, a braid is applied in a single layer in a clockwise direction in the same way as braiding the least flexible part. In this case, the strand 8 of the braid of the most flexible part includes four steel wires 9 with a winding angle of 60-75 °.

Implementation of a utility model.

For the least flexible part of the cable, seven steel wires 2 with a diameter of 0.2 mm are twisted on a twisting machine with a left twist into the core 1. A braid is wound on top of twisted wires 2 on a twisting machine, strand 3 of which includes five steel wires 4 with a diameter of 0.2 mm. In this case, the twisting machine is adjusted so that the braid pitch is equal to the sum of the diameters of the wires 4 included in the braid, and ensures that the extreme wires of adjacent strands 3 are tightly joined to each other with the formation of a continuous braid. The direction of winding strands 3 can be either counterclockwise or clockwise. In this case, the angle of winding the strands can be 60-75 °. For the most flexible part of the cable, a double lay core 5 is made. Seven metal fibers 7 with a diameter of 0.06 mm are twisted into cores 6. Of the seven cores made in this way 6, a core 5 is twisted with a right cross twist. A braid is wound on a twisting machine over twisted 5 cores 6 on a twisting machine in the same way as braid the least flexible part. Strand 8 of the braid of the most flexible part includes four steel wires 9 with a diameter of 0.2 mm By reducing by one number the wires that make up the strand 8 wound around the core 5 with the same step as the strand 3, a gap equal to the diameter of one braid wire 9 is formed between the turns of the strand 8. The winding direction of the strands 8 can be counterclockwise clockwise. In this case, the angle of winding the strands can be 60-75 °. Using laser welding, a capsule with a gamma radiation source, for example, Co-60 or Ir-192, is attached to one end of the most flexible part. The implementation of the utility model is not limited to the examples given in the present description and other substances can be used as radiation sources. The more flexible part of the cable is also connected by laser welding to the least flexible part. A continuous sheath over the core of the least flexible part of the cable gives it additional elasticity. Due to the application of multiple bending loads to the cable during its transportation through curved channels inside the apparatus for brachytherapy, the cable is elasticly straightened when it enters into straight sections of the transportation channel without deformations of the original cable shape. Thus, the control of the positioning of the capsule with the source will be more accurate, since the actual length of the cable in the channel will correspond to its nominal length. In addition, due to the manufacture of cores 6 of thin metal fibers 7 provides increased flexibility of the part of the cable holding the capsule with the source. A 6 braid over the twisted cores provides additional flexibility to the more flexible part of the cable and at the same time maintains sufficient flexibility due to the presence of 8 gaps between the turns of the strand equal to the diameter of one wire, which allows the more flexible part of the cable to move along the applicator channels with diameters from 1 to 3 mm, with local bends with radii up to 15 mm. Moreover, the presence of the braid also provides the most flexible part of the cable with elastic straightening when it enters the straight sections of the transportation channel without deformations of the original shape. Thus, the design of the utility model allows you to repeatedly pass the cable through narrow channels having a curved shape, preserving the shape of the cable itself, which ensures the most accurate positioning of the capsule with the radiation source in the applicator channel.

Claims (6)

1. A device for transporting a radiation source into the channel of the applicator, including a cable consisting of two parts having different flexibility, and a capsule with a radiation source fixed to the end of the most flexible part, the least flexible part made of twisted metal wires, and the most flexible part - of twisted cores, each of which consists of twisted metal fibers, characterized in that a braid is applied over the twisted wires of the least flexible part of the cable with a step equal to the sum of the diameters rovolok included in braided strand, and over the stranded cores most flexible portion superposed braided at the same pitch as the least flexible sheath portion, the sheath strand most flexible portion comprises a reduced number of wires. 2. The device according to claim 1, characterized in that the least flexible part of the cable consists of seven twisted steel wires, over which a braid is applied, a strand of which includes five steel wires with a winding angle of 60-75 °. 3. The device according to claim 2, characterized in that the direction of winding the strands of braid of the least flexible part is made counterclockwise. 4. The device according to claim 1, characterized in that the most flexible part of the cable consists of seven twisted cores, each of which is twisted from seven steel fibers, with a braid over the twisted cores, the strand of which includes four steel wires with a winding angle of 60- 75 °. 5. The device according to claim 4, characterized in that the direction of winding the strands of braid of the most flexible part is made clockwise. 6. The device according to claim 1, characterized in that the most flexible and least flexible parts of the cable, as well as the capsule with the radiation source are interconnected by laser welding.

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