RU230148U1 - A device for tensioning spokes in a spoke fixator located on the ring of the spoke apparatus for external fixation - Google Patents

Abstract

A device for tensioning spokes in spoke apparatuses, comprising a support structure and a spoke fixation element connected to a force stretching means. The support structure is made in the form of a rectangular element in the form of an elongated plate, one end of which along the length has jaws with the possibility of manually holding the spoke lock in the spoke apparatus ring, and the other end is made with the possibility of fastening to the spoke apparatus ring by means of screws and has a groove in width and depth, coinciding with the dimensions of the spoke lock to hold it from turning, wherein along the width of the plate on the side of the ends there are two through holes with the possibility of free placement and rotation of the spoke lock element, made in the form of a hexagonal cylinder with a slot in the axial direction for placing the spoke and tensioning it by turning the cylinder. The technical result is the possibility of tensioning the spokes with simultaneous fixation of the spoke lock head in the apparatus ring and stabilization of the device that tensions the spoke in a rotary manner. 2 ill.

Description

The utility model relates to the field of medicine, namely to traumatology and orthopedics, and can be used in operations using spoke devices of the Ilizarov type and similar ones.

Spoke devices for extrafocal osteosynthesis have become widespread in traumatology and orthopedics and are actively used. After transosseous insertion of the spokes, their further fixation to the metal frame of the device is necessary. In order for the flexible spoke to acquire rigidity, ensuring the stability of osteosynthesis, it must be stretched and then fixed. Often, without the use of a special device, this process causes significant difficulties, accompanied by an increase in the time of the operation, the need to involve an additional assistant, insufficient tension of the spokes and, as a result, instability of osteosynthesis, excessive tension of the spoke and, as a result, its fracture, excessive trauma to the patient. The general industry does not produce special devices for fast and high-quality tension of the spokes in spoke devices.

Various devices for tensioning spokes in spoke machines are known from the prior art. The spoke tensioner (RU 2208412 C2, Research Center for Technical Research "VTO", 20.07.2003) contains a spoke holding unit with a central hole for the spoke, a threaded unit and a threaded element, a tension unit and a stop with projections. The tension unit consists of a threaded shaft with a central hole for the spoke and a handle in the form of a nut, is rigidly connected to the spoke holding unit and interacts with the body.

The threaded unit in the spoke retention unit and the threaded shaft are made with trapezoidal or thrust thread. The threaded unit is made with a threaded hole for installing a threaded element, passing beyond the central hole under the spoke of the retention unit and passing into a cylindrical hole of a smaller diameter, the threaded element is made with a cylindrical projection. The invention provides an increase in the force of holding the spoke and the reliability of the device, ensuring atraumatic manipulations.

Disadvantages: complex design (more difficult to sterilize and manufacture); the need to always fix the device to the frame of the apparatus, which complicates its use and increases the duration of the operation; it is necessary to use a tool to tighten the threaded element (for example, a wrench), which increases the time it takes to tighten the spoke.

A spoke tensioner is known (RU 2014029 C1, Tatarstan Research Center "Restorative Traumatology and Orthopedics", 15.06.1994), which has a support fork and a guide with a slider installed on one of the branches, which has projections and a spoke fixation mechanism in the form of eccentrics on axes with lateral toothed surfaces and springs. A pusher in the form of strips with slots for the slider projections is installed on the other branch. The device ensures the possibility of metered spoke tension and free orientation of the spoke tensioner relative to the support of the external fixation device.

The disadvantages of this device are the complexity of the design (more difficult to sterilize and manufacture); rapid wear of the device and insufficient spoke tension force due to work with high mechanical forces; fragility of the hinge joint with the screw; insufficient strength of spoke fixation in the eccentrics. The closest to the patented one is the spoke tensioner according to patent RU 41601 U1, State Educational Institution of Higher Professional Education Tyumen State University, 10.11.2004 - prototype. One of the end parts of the spoke tensioner is represented by a nozzle rotating around the axis with a groove ensuring its retention on the ring of the Ilizarov apparatus, a through hole for the spoke in the movable remote structure, the other end part is a handle, the rotation of which ensures the tension of the spoke. The device provides the ability to tension and fix the Kirschner spoke in the standard spoke holder of the Ilizarov apparatus.

The disadvantages of this device are - the need to always fix the device to the frame of the device, which complicates its use when the rings of the device are occupied, it is necessary to use a tool to tighten the screw 4 and nut 7 (for example, a wrench), which increases the time of tensioning the spoke. Due to the lack of any lever, it is necessary to apply significant force when rotating the handle 8, which requires great forearm strength and endurance from the surgeon, otherwise this will lead to insufficient tension of the spoke. It is also worth noting that the winding of the spoke occurs spirally along the main axis of the device, which complicates further extraction of the spoke from the device.

This utility model is aimed at eliminating the shortcomings of the prototype.

A device for tensioning spokes in spoke machines comprises a support structure and a spoke fixation element connected to a force stretching means.

The difference is as follows. The support structure is made in the form of a rectangular element in the form of an elongated plate, one end of which along the length has jaws with the possibility of manual retention of the spoke lock in the ring of the spoke apparatus, and the other end is made with the possibility of fastening to the ring of the spoke apparatus by means of screws and has a groove in width and depth, coinciding with the dimensions of the spoke lock to hold it from turning, while along the width of the plate on the side of the ends there are two through holes with the possibility of free placement and rotation of the spoke lock element, made in the form of a hexagonal cylinder with a slot in the axial direction for placing the spoke and its tension by turning the cylinder.

The technical result is the possibility of tensioning spokes with simultaneous fixation of the head of the spoke lock in the ring of the apparatus and stabilization of the device that tensions the spoke in a rotary manner.

The essence of the utility model is explained in the drawings, where:

Fig. 1 - general view of the device without the spoke fixing element;

Fig. 2 - the device in operation with end 12 using a spoke fixing element in the form of a hexagonal cylinder 2.

The spoke fixing element 1 is a hexagonal cylinder 2 with a slot 3, which is inserted into the holes 5 or 6 of the supporting structure 7, made in the form of a key: handle 8, one end 9 is the jaws of a wrench 10 with stabilizing jaws 11, and the second end 12 is a rectangular stop body 13 with a groove 14 and two screws 15 and 16 for secure fixation to the ring of the apparatus 17 in the area of passage of the spoke 18. The spoke fixer through which the spoke passes is shown under the number 19.

The length of the hexagonal cylinder 2 is 70-100 mm, the diameter corresponds to the sizes of standard wrenches (from 10 to 16 numbers) and coincides with the diameter of holes 5 and 6. The width of the slot 3 is a = 2.5 mm, and its depth is 25-30 mm. Such dimensions of the slot 3 allow holding and tensioning spokes with a diameter of both 1 mm and 2 mm. The total length of the support structure 7 is 250-350 mm, the width of the handle 8 is 35-40 mm, the thickness is 5-6 mm. The end 9 corresponds to a wrench "No. 10". The thrust housing 13 has a length of 55-65 mm, a width of 18-20 mm, a thickness of 7-10 mm, screws 15 and 16 correspond to a No. 10 wrench, the depth of the groove 14 is half the thickness of the housing 13, the width corresponds to the head of the spoke lock (No. 10 wrench).

The device is used as follows. During the operation, the osteosynthesis needle apparatus is assembled and applied to the required area. At the stage when it is necessary to tighten and fix the needle 18 to the ring (pos. 17 in the drawings) of the apparatus, the device is applied with one of its ends (9 or 12, whichever is more preferable for the surgeon in a particular situation) to the frame of the apparatus, fixing the head of the needle fixator (pos. 19 in the drawings). If end 9 is selected, the device is placed similar to a classic wrench with jaws 10 on the head of the needle fixator 19 in such a way that the longitudinal axis of the device coincides with the axis of the needle 18, and jaws 11 grasp frame 17 of the apparatus. Then, hexagonal cylinder 2 is inserted into hole 5 so that the end of spoke 18 gets into slot 3, after which spanner 20 rotates the cylinder in the longitudinal axial direction (shown by arrow 21), simultaneously, spoke 18 end is screwed onto cylinder 2 and, accordingly, spoke 18 is tensioned. After the spoke is tensioned to the required level, the assistant screws nut 21 of spoke lock 19, thereby fixing the spoke in a tensioned state. Due to the fact that the head of spoke lock 19 is fixed by end 9 of the device, there is no need to use a second spanner, the assistant's hand is freed. The screwed end of the spoke is easily removed from slot 3. The device is ready for use again. The spoke tension can be similarly performed using a torque wrench instead of a simple key 20, which will allow for a measured tension of the spoke without the risk of its intraoperative fracture or insufficient tension force. If end 12 is selected, the device is fixed on the ring of the apparatus 17 as follows: the head of the spoke fixator 19 is fixed by groove 14, the rectangular stop body 13 is fixed to the ring 17 of the apparatus using two screws 15 and 16 by tightening them through the holes of the rings of the apparatus with a wrench. The device is placed in such a way that the longitudinal axis of the device coincides with the axis of the spoke 18. Further actions are similar to those performed when using end 9. Due to the fact that the head of the spoke fixator 19 is fixed by groove 14, there is no need to use a second wrench, the assistant's hand is freed.

This design gives the surgeon a choice of which end to use the device (end 9 is quick-release, end 12 is more reliable, but requires more time to use). Thus, it is possible to reduce the time of the operation by accelerating the process of tensioning the spokes, eliminate the need to involve an additional assistant, increase the stability of osteosynthesis, and also reduce the risk of intraoperative fracture of the spokes, increase the stability of osteosynthesis due to the dosed degree of tension of the spokes and the accuracy of its achievement.

Example of implementation. The experimental sample is made of titanium.

The total length of the device is 300 mm. The length of the hexagonal cylinder 2 is 80 mm, the diameter corresponds to the size of a standard spanner "№16" and coincides with the diameter of holes 5 and 6 (~16 mm). The slot 3 has a width of a = 2.5 mm, and its depth is 30 mm. Such dimensions of the slot 3 allow holding and tensioning spokes with a diameter of both 1 mm and 2 mm. The support structure 7 has a total length of 300 mm, a handle width of 8-35 mm, and a thickness of 5 mm. The end 9 corresponds to a spanner "№10". The stop housing 13 is 60 mm long, 20 mm wide, 10 mm thick, screws 15 and 16 correspond to a No. 10 wrench, the depth of groove 14 is half the thickness of housing 13 (5 mm), the width corresponds to the head of the spoke lock (No. 10 wrench).

Thus, the patented device provides the ability to tension the spokes while simultaneously fixing the head of the spoke lock in the ring of the apparatus and stabilizing the device that tensions the spoke in a rotary manner.

Claims (1)

A device for tensioning spokes in a spoke fixator located on a ring of a spoke external fixation device, comprising a support structure and a spoke fixation element, characterized in that the support structure is made in the form of an elongated plate having the ability to select the use of the end of the plate for fixing the head of the spoke fixator on the ring of the external fixation device, wherein one end is made along the length with jaws for the ability to manually hold the head of the spoke fixator in the ring of the spoke external fixation device, and the other end has the ability to be attached to the ring of the spoke external fixation device by means of screws and is made with a groove in width and depth that coincides with the dimensions of the head of the spoke fixator to hold it from turning, wherein along the width of the plate on the side of the ends there are two through holes for the spoke fixation element in the form of a hexagonal cylinder made with a slot in the axial direction for the spoke, wherein the spoke fixation element has the ability to rotate in the through hole of the plate for spoke tension.