RU194565U1 - INSULATION WASHER TO EXTERNAL FIXING UNIT - Google Patents

Abstract

The utility model relates to medical equipment and can be used in traumatology and orthopedics in an external bone fixation device for electrical isolation of a bone fixator (knitting needle, fixation rod). The insulating washer to the external fixation device is made of a material that does not have electrical conductivity, has the shape of a rotation body, having a flat part, a one-sided cylindrical protrusion and an opening for a mounting element. Technical result - allows you to open the electrical circuit between the support of the apparatus and the bone m retainer (knitting pin, locking rod) in devices with metal supports, fasteners, threaded rods. 5 cp f-ly, 4 ill.

Description

The utility model relates to medical equipment and can be used in traumatology and orthopedics in an external bone fixation device for electrical isolation of a bone retainer (knitting needle, fixation rod).

Known use for the treatment of fractures and deformities of bones of external fixation apparatus (AVF), according to the Ilizarov type. Such devices, to ensure the necessary rigidity, strength and durability, are made of metal. The Ilizarov apparatus, for example, contains metal supports made in the form of flat rings and with mounting holes, threaded rods, for connecting the supports, spoke holders (spoke bolts), knitting needles, nuts. Since the apparatus is made of metal, its design is electrically conductive and is able to electrically affect the bioelectric potentials of bone tissue. Detection and removal of biopotentials can be used to monitor bone tissue repair in orthopedic and traumatic patients. The generation of electric current in bone tissue and the effect on biopotentials can be used for stimulation tasks, providing favorable conditions, and bone formation.

Known compression and distraction apparatus (source [1]: copyright certificate SU 973118) containing metal bearings made in the form of flat rings and with mounting holes, threaded rods for connecting supports, spoke holders, knitting needles, nuts. On the knitting needles, in the area of contact with soft tissues, fluoroplastic tubes are installed. Threaded rods are made detachable and consist of two parts connected by a sleeve made of a dielectric. Thus, the electrical circuit between the supports of the apparatus is opened.

However, in the apparatus [1], the electric circuit between the spoke drawn through the bone and the support of the external fixation apparatus is not open, the spoke of the electrically conductive material is in contact with the support of the electrically conductive material. Two spokes mounted on one support of the apparatus form a closed electrical circuit.

A known method of reparative regeneration of bone tissue and an external fixation apparatus (source [2]: patent RU 2271169). This method provides conditions close to natural, to accelerate the process of reparative regeneration of bone tissue. The apparatus includes supporting rings with spokes made of an electrically conductive material, fixed to the support rings by detachable joints, fixing threaded rods made of an electrically conductive material for tightening and fixing the support rings and dielectric elements, and / or telescopic rods made of an electrically conductive material for tightening and fixing the support rings . At least one of the support rings is electrically isolated from the rods by means of dielectric elements connected to it, for example, bushings. At the junction of the rods and support rings, insulating elements - dielectric bushings are put on the rods. Thus, an open circuit between the supports of the apparatus. Dielectric bushings are made in the form of a body of revolution with a central channel under the threaded rod.

In the apparatus [2], the electric circuit between the spoke drawn through the bone and the external fixation apparatus is not open, since the spoke of the electrically conductive material is in contact with the support of the electrically conductive material, respectively, each spoke is not an electrically independent element. Two spokes mounted on one support of the apparatus form a closed electrical circuit. Dielectric bushings (insulating sleeves) are used to isolate the threaded rods of the connecting supports. The dielectric bushings are made in the form of a body of revolution of transition diameter, equipped at the ends with flat parts of a larger diameter, designed to fit to the surface of the apparatus support, and a central part of a smaller diameter, designed to be placed in the hole, with a central channel under the threaded rod. The design of the dielectric bushings is not suitable for isolating the bone retainer with its fastener from the support. For example, a dielectric sleeve cannot be used to isolate a spoke bolt when fixing the spokes on the support of the Ilizarov apparatus. The dielectric sleeve has an integral structure, it cannot be installed in the hole in the AVF support, since the outer diameter of the flat parts of the sleeve located at its ends exceeds the diameter of the hole in the AVF support. Installation of such a sleeve at the place of use, in a through circular hole, is not possible. The source does not disclose material for the manufacture of bushings.

Thus, the problem inherent in the known technical solutions is the lack of electrical isolation of a single metal spoke fixed by a metal fastener from the metal support of the apparatus.

The task to which the technical solution is directed is the electrical isolation of the bone retainer (knitting needle, locking rod) from the supports of the external fixation device, and the opening of electrical circuits in the apparatus-bone system, which is necessary to enable independent electrical connection to a single spoke .

EFFECT: insulating washers, by installing the apparatus supports in the mounting holes, allow to open the electric circuit between the apparatus support and the bone retainer (knitting needle, clamp retainer) in apparatus with metal supports, fasteners, threaded rods.

The technical result is achieved by the fact that the insulating washer to the external fixation apparatus is made of a material that does not have electrical conductivity, has the shape of a body of revolution having a flat part designed to fit on the AVF support, a one-sided cylindrical protrusion designed to be immersed in the mounting hole of the AVF support, and an opening under the fastener.

The insulating washer can be made of plastic, silicone, fluoroplastic. The cylindrical protrusion of the insulating washer has an outer diameter less than the diameter of the mounting hole in the support of the external fixation apparatus by 0.05 mm, and the inner diameter of the hole of the insulating washer is 0.1 mm larger than the diameter of the rod part of the fastening element. This is necessary for free immersion of the insulating washers in the hole of the support of the external fixation apparatus and the installation of a fastener (fixing bolt).

от высоты опоры аппарата внешней фиксации, для обеспечения плотного контакта шайб между собой при установке в опору. The height of the cylindrical protrusion of the insulating washer is at least

from the height of the support of the external fixation apparatus, to ensure tight contact between the washers when installed in the support.

The utility model is illustrated by graphic materials:

Figure 1 - insulating washer to AVF, General view;

Figure 2 - insulating washer to AVF, a view in section;

Figure 3 - insulating washer to the AVF, the installation and formation of an insulating sleeve;

Figure 4 is a diagram of bone retainers mounted on an AVF support and electrically isolated from it by insulating sleeves assembled from insulating washers.

Implementation of a utility model.

от высоты опоры 2 АВФ, для обеспечения плотного контакта изоляционных шайб между собой при установке в опору АВФ 2. Наружный диаметр плоской части составляет 12мм.Example 1. The insulating washer to the external fixation device (AVF) has the shape of a body of revolution having a flat part 1 (Fig. 1; 2; 3), designed to fit to the support 2 of the AVF (Fig. 3; 4), a one-sided cylindrical protrusion 3 (Fig. 1; 2), intended for immersion in the mounting hole 4 (Fig. 4) of the support 2 of the AVF, and the hole 5 (Fig. 1; 2) under the fastener 6 (Fig. 3; 4). The insulating washer is made of plastic. The cylindrical protrusion 3 has an outer diameter less than the diameter of the mounting hole 4 in the AVF support by 0.05 mm. The inner diameter of the hole 5 of the insulating washer is made larger than the diameter of the rod part of the fastener 6 by 0.1 mm. This is necessary for free immersion of the insulating washers in the mounting hole 4 of the support 2 of the AVF and the installation of the fastener 6 (fixing bolt). The height of the cylindrical protrusion 3 of the insulating washer is at least

from the height of the support 2 AVF, to ensure tight contact of the insulating washers with each other when installed in the support AVF 2. The outer diameter of the flat part is 12 mm.

от высоты опоры АВФ 2, для обеспечения плотного контакта изоляционных шайб между собой при установке в опору 2. Наружный диаметр плоской части составляет 14мм.Example 2. The insulating washer to the external fixation device (AVF) has the shape of a body of revolution having a flat part 1 (Fig. 1; 2; 3), designed to fit to the support 2 of the AVF (Fig. 3; 4), a one-sided cylindrical protrusion 3 ( figure 1; 2), designed to be immersed in the mounting hole 4 (figure 4) support AVF 2, and the hole 5 (figure 1; 2) under the fastener 6 (figure 3; 4). The insulating washer is made of silicone. The cylindrical protrusion 3 has an outer diameter less than the diameter of the mounting hole 4 in the support of the AVF 2 by 0.05 mm. The inner diameter of the hole 5 of the insulating washer is made larger than the diameter of the rod part of the fastener 6 by 0.1 mm. This is necessary for free immersion of the insulating washers in the mounting hole 4 of the support 2 and the installation of the fastener 6 (fixing bolt). The height of the cylindrical protrusion 3 of the insulating washer is at least

from the height of the AVF 2 support, to ensure tight contact of the insulating washers with each other when installed in the support 2. The outer diameter of the flat part is 14 mm.

Example 3. The insulating washer to the external fixation apparatus (AVF) has the shape of a body of revolution having a flat part 1 (Fig. 1; 2; 3), designed to fit to the support 2 of the AVF (Fig. 3; 4), a one-sided cylindrical protrusion 3 ( figure 1; 2), designed to be immersed in the mounting hole 4 (figure 4) support AVF 2, and the hole 5 (figure 1; 2) under the fastener 6 (figure 3; 4). The insulating washer is made of plastic or silicone or fluoroplastic. The cylindrical protrusion 3 of the insulating washer has an outer diameter of 7 mm. The inner diameter of the hole 5 is 6.2 mm. This is necessary for free immersion of the insulating washers in the mounting hole 4 of the support 2 of the Ilizarov apparatus and the installation of a fixing bolt that acts as the fastener 6. The height of the cylindrical protrusion 3 of the insulating washer is 2.5 mm, to ensure tight contact between the insulating washers when installed in the support 2. The outer diameter of the flat part is 11.5 mm, this allows you to install insulating washers in adjacent adjacent mounting holes of the Ilizarov apparatus support, where fix bolts are used ators with M6x1 thread and a hexagon head of 10. As a result, this allows you to install two or more electrically insulated metal bone retainers 7 (Fig. 3; 4) in adjacent mounting holes 4 on one support 2.

Use of utility model.

Insulation washers are used for galvanic isolation of the bone retainer 7 (the spoke, the locking rod, the screw shaft) from the support 2 of the AFF, and opening the electrical circuit in the apparatus-bone system. After holding the bone fixer 7 in the bone 8 (Fig. 4), before fixing it on the support 2 of the external fixation apparatus, two insulating washers are placed on the opposite sides in the selected fixing hole 4 of the support 2, in the place where the bone fixer 7 is attached to the support 2. The insulating washers are installed with cylindrical protrusions 3, placing them towards each other, in the mounting hole 4 of the support 2 of the apparatus from opposite sides, they are closed, forming them a cylindrical channel 9 (Fig.3) and, thus, forming an insulating sleeve 10 (Fig. 3) for the fastener 6. Connect the insulating washers with the fastening element 6 (fixing bolt), placing it in the cylindrical channel 9, laying the bone retainer 7 (knitting pin, screw shaft) under the head of the fastening element 6 on the flat part 1 of one insulating washer. A metal nut 11 is screwed onto the threaded rod of the fastening element 6 (Fig. 3; 4), tightened, pressing other insulating washers to the flat part 1. Thus, due to the insulation sleeve 10 formed from the insulating washers, the bone retainer 7 loses direct electrical contact with the support 2 of the apparatus. The flat part 1 of one washer is located between the bone retainer 7 and the support 2. The flat part of the other washer is located between the metal nut 11 and the support 2.

To obtain a stronger fixation of the bone retainer 7, as well as to prevent excessive deformation of the flat part 1 of the insulating washers, when tightening the metal nut 11, a metal washer 12 can be additionally laid under the head of the fastening element 6 and the metal nut 11 (Fig. 3; 4 ) with a diameter not less than the outer diameter of the insulating washer. In this case, the flat part 1 of one insulating washer is located between the support 2 and the metal washer 12 in contact with the bone retainer 7. The compression forces arising when the fastening element 6 is tightened deform the insulating washers, which ensures a tight connection of the bone retainer 7 with the support 2 and complete opening of the electrical circuit in the bone-apparatus system. The electrical isolation of the bone fixer 7 from the support 2 of the device allows you to independently apply an electric current to a separately taken bone fixer 7, as well as independently remove the potential difference arising on the bone fixer 7. This allows the use of bone fixators of 7 external fixation devices to detect biopotentials and generate potential, acting electric currents, to solve problems of stimulation and monitoring of bone tissue repair in orthopedic and traumatic patients.

Claims (6)

1. The insulating washer to the external fixation apparatus, characterized in that it is made of a material that does not have electrical conductivity, in the form of a body of revolution, having a flat part, designed to fit to the support of the external fixation apparatus, with a one-sided cylindrical protrusion intended for immersion in the mounting hole support of the external fixation apparatus, and a hole for the fastener. 2. The washer according to claim 1, characterized in that it is made of plastic. 3. The washer according to claim 1, characterized in that it is made of silicone. 4. The washer according to claim 1, characterized in that it is made of fluoroplastic. 5. The washer according to claim 1, characterized in that the cylindrical protrusion of the washer has an outer diameter less than the diameter of the hole in the support of the external fixation apparatus by 0.05 mm, and the inner diameter of the hole is 0.1 mm larger than the diameter of the rod portion of the fastener. 6. The washer according to claim 1, characterized in that the cylindrical protrusion of the washer has an outer diameter of 7 mm, the inner diameter of the hole is 6.2 mm, and the height of the cylindrical protrusion of the washer is 2.5 mm.

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