KR101670273B1 - Locking fixing system for orthopedic implants - Google Patents

Abstract

The present invention relates to a locking type fixation system for reconstructing a fractured bone, characterized in that it comprises: a plate for forming at least one fixation hole to be attached to and supported on the bone surface; Wherein the fixing hole and the head are formed to have a spherical shape profile, and a thread cutter is formed on the inner and outer surfaces of the fixed hole and the head, And a molding groove in which the head is fixed to the fixing hole in a state where the female screw and the male screw are tightly joined at an arbitrary angle in addition to the shaft fastening.
Accordingly, the present invention has an effect that the screw inserted and fastened to the plate is fastened at an arbitrary angle, while the plate and the female screw of the screw are fastened in a compact state.

Description

[0001] The present invention relates to a locking fixation system for orthopedic implants,

The present invention relates to a locking type fixing system for reconstructing a bone fractured with a screw together with a plate, and more particularly, to a locking type fixing system in which a screw inserted and fastened to a plate is fastened at an arbitrary angle, To a locking fixation system for an orthopedic implant.

Locking systems used in bone fractures are widely used and well known. Conventional fixation systems are particularly well-developed to facilitate fracture treatment. The screw is inserted into the screw hole of the plate and placed in the bone to squeeze, neutralize, support, stress and connect the fracture tip and pull the bone from the plate.

Non-locking non-locking systems that are not fixed to the plate can be placed on the bone at various angles relative to the plate. However, since the screw is not fixed to the plate, the angular relationships between the plate and the screw are not fixed and are likely to change during or after surgery. That is, the dynamic load on the bone and plate from the physiological states may cause the screw to loosen or loosen against the plate. This may result in insufficient alignment and inadequate therapeutic results.

On the other hand, the fixation of the plate and the screw provides a fixed angular relationship between the screw and the plate to reduce the sagging of the slack. A locking fixation system, known as one of the screws that can be secured to the bone plate, has threads that engage and engage the outer surface of the screw head and the inner surface of the screw hole of the plate. Such a locking fixation system has a high resistance to stress, torsional forces, and flexures.

Locked fastening systems, however, are limited in their ability to compress bone fragments, which affects treatment. Therefore, many bushings located in the screw holes of the plate are used to lock the screw to the plate at an arbitrary angle. The bushing can be rotated within the threaded holes of the plate. The tapered thread of the screw engages the threaded inner surface of the bushing and is locked at the required angle to the bone plate by inflating the bushing against the inner or inner wall of the threaded hole of the plate. However, such a bushing type locking system is complicated and difficult to operate, and there is a problem in that the bushing is released during operation.

Namely, Korean Patent Publication No. 2010-0058483, entitled " Bone plate system capable of freely adjusting the angle, " The proposed prior art document has a plurality of cutout grooves that form the threads of the screw and plate into a profile along the arc-shaped radius of curvature of the spherical portion and divide the threads of the plate. Therefore, it is possible to adjust the angle of the screw freely without using the bushing. However, since the thread of the plate is not completely formed by the cutout groove, there is a problem that the coupling force between the plate and the screw is low. Above all, there is a problem that foreign matter is caused to induce inflammation in the groove, or unnecessary tissue is grown due to organic matter, resulting in side effects.

Korean Patent Laid-Open Publication No. 2010-0058483 "Bone plate system capable of freely adjusting the angle"

Accordingly, the present invention has been made to solve the above-mentioned problems, and it is an object of the present invention to provide a female thread and a male screw in a shape of a spherical profile so that a screw inserted and fastened to a plate can be fastened at an arbitrary angle, The object of the present invention is to provide a locking type locking system for an orthopedic implant which can improve a coupling force when a male screw is tightly coupled.

In order to achieve the above object, the present invention provides a locking fixation system for reconstructing a fractured bone, comprising: a plate for forming at least one fixing hole to be attached to and supported on the bone surface; Wherein the fixing hole and the head are formed to have a spherical shape profile, and a thread cutter is formed on the inner and outer surfaces of the fixed hole and the head, And a molding groove in which the head engages the male screw and the male screw at an arbitrary angle in addition to the shaft fastening in the fixing hole, the molding groove having a diameter of a shape profile Shaped side cutter having the same radius as the cut-out side is radially cut by a pitch at a position perpendicular to the center point And the forming groove is cut to a region where the end mill having the same diameter as the shape profile is mutually symmetric with the shape profile in the state of being adjacent to the outer surface of the shaft and the helical thread is cut Features a male thread that is turned into a day.

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It should be understood, however, that the terminology or words of the present specification and claims should not be construed in an ordinary sense or in a dictionary, and that the inventors shall not be limited to the concept of a term It should be construed in accordance with the meaning and concept consistent with the technical idea of the present invention based on the principle that it can be properly defined. Therefore, the embodiments described in the present specification and the configurations shown in the drawings are merely the most preferred embodiments of the present invention, and not all of the technical ideas of the present invention are described. Therefore, It is to be understood that equivalents and modifications are possible.

As described above, according to the present invention, a female screw and a male screw to which a plate and a screw are coupled are formed into a spherical profile so that the screw is guided from the plate at an arbitrary angle and a forming groove is formed in the male screw and the male screw. As the female screw and the male screw are fastened in a tight state at any angle, the bonding strength is improved, thereby providing an effect of maximizing the completeness of the overall operation.

BRIEF DESCRIPTION OF THE DRAWINGS Fig. 1 is a perspective view of a fixing system according to the present invention as a whole. Fig.
Figures 2 and 3 are cross-sectional views showing the fastening system according to the invention in an incision.
4 is a configuration diagram showing a female screw according to the present invention.
5 is a configuration diagram showing a male screw according to the present invention.
6 is a cross-sectional view showing the fastening state of the fastening system according to the present invention.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

The present invention relates to a locking fixation system for reconstructing a fractured bone, comprising: a plate (10) for forming at least one fixation hole (15) to be attached to and supported on a bone surface as shown in Figs. 1 to 3; And a screw (20) for forming a head (25) to be engaged with the fixing hole (15) at the upper end of the shaft (21), and a screw (20) for locking the orthodontic implant It is a fixed system.

The fixing hole 15 and the head 25 according to the present invention are formed of a spherical shape profile 31 as shown in Figs. 4 and 5, and a thread cutter C is formed on the inner and outer surfaces, The female screw 32 and the male screw 33 are formed at an angle perpendicular to the axis A by a predetermined pitch.

The shape profile 31 is formed in a spherical shape such that the head 25 inserted in the fixing hole 15 can be varied at an arbitrary angle as in the conventional non-locking type fixing system. The fixing hole 15 is formed by a ball end mill having the same diameter as the shape profile 31 as shown in Fig. Here, it is preferable to form a drill hole having a diameter smaller than the diameter of the shape profile 31 before machining with the ball end mill, and it is preferable to cut the drill hole with a cycle peck drilling of about 1.0 to 2.0 mm at the time of drilling or ball end milling . The head 25 is formed by cutting the cutting tip along the shape profile 31 on the shelf as shown in FIG. 5A.

When the shape of the fixing hole 15 and the head 25 is completed, the thread cutter C forms the female thread 32 and the male thread 33 respectively. 4B and 5B, the thread cutter C is formed along the shape profile 31 by cutting the fixed hole 15 and the inner and outer surfaces of the head 25 to a predetermined pitch. Where the cutter C is cut at an angle perpendicular to the profile 31. In order to perform such cutting, it is necessary to work in a multi-axis machine having three or more axes. The finished female screw 32 and the male screw 33 have a spherical continuous thread. In this state, the head 25 can be axially fastened on the fixing hole 15. [

When the shape of the female screw 32 and the male screw 33 is completed, the head 25 is screwed into the fixing hole 15 in a molding groove (35) and (36) are formed. The molding grooves 35 and 36 guide the female and male screws 32 and 33 to engage with each other even when the angle is varied.

First, the forming grooves 35 of the female threads 32 are formed at regular intervals along a continuous thread of spherical shape as shown in Figs. That is, as shown in Fig. 4C, the plate side cutter C2 having the same radius as the diameter of the shape profile 31 cuts radially by a pitch at a position perpendicular to the center point A. Thus converting the serially connected threads into fine saw teeth. The female screw 32 converted into a serrated shape by the molding groove 35 serves to allow the male screw 33 to form the tab itself.

The forming grooves 36 of the male screw 33 are formed at regular angles along the spherical continuous threads as shown in Figs. That is, the end mill C2 having the same diameter as the shape profile 31 as shown in FIG. 5C is cut to a region where the end mill C2 is mutually symmetric with the shape profile 31 in a state of being adjacent to the outer surface of the shaft 21. [ Thus turning the connected threads in series into the cutting edge. The male screw 33 converted into the cutting edge by the molding groove 36 is formed into an integral angle with the serrated female screw 32 at the angle at which the female screw 33 is engaged.

The process of fastening the female screw 32 and the male screw 33 according to the present invention will be described below. When the fixing hole 15 and the head 25 are fastened together, the female screw 32 and the male screw 33 are engaged with each other as shown in FIG. 6A. However, when the fixing hole 15 and the head 25 are shifted by a predetermined angle, a fine serrated female screw 35 is fastened integrally with the male screw 33 as shown in FIG. 6B. A part of the female screw 35 which is not fastened to the male screw 33 is crushed while being caught by the molding groove 36 of the male screw 33 and is re-formed according to the pattern of the male screw 33. [ As a result, the screw and the male screw are fastened together in a tight state, so that the coupling force can be improved and the groove into which the tissue or foreign matter flows can be minimized, thereby maximizing the completeness of the operation.

It will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the spirit and scope of the invention as defined by the appended claims. It is therefore intended that such variations and modifications fall within the scope of the appended claims.

10: Plate 15: Fixing hole
20: screw 21: shaft
25: head 31: shape profile
32: Female thread 33: Male thread
35, 36: Molding groove A: Center point
C: Thread cutter C1: Side cutter
C2: End mill

Claims (3)

CLAIMS What is claimed is: 1. A locking fastening system for reconstructing a fractured bone comprising:
A plate which is inserted into the fixing hole and is inserted into the bone, and a screw which is engaged with the fixing hole at the upper end of the shaft to form a head; Lt; / RTI &
Wherein the fixing hole and the head are formed in a spherical shape profile and a female thread and a male thread are formed on the inner and outer surfaces at an angle perpendicular to the center point of the shape profile by a predetermined pitch, And a molding groove for fastening the female and male screws at an arbitrary angle,
Wherein the molding groove has a female screw whose radial shape is cut by a pitch at a position where a plate side cutter having a radius equal to the diameter of the shape profile is perpendicular to the center point and the helical thread is converted into a fine saw-
Characterized in that the forming groove is a lock for an orthopedic implant which is cut to a region where the end mill having the same diameter as the shape profile is adjacent to the outer surface of the shaft and which is mutually symmetric with the shape profile and the helical thread is converted into a cutting edge, Fixing system. delete delete

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