KR20050080493A - An internal fixator for spine - Google Patents

Abstract

The bone fixing device according to the present invention includes a bone screw (50) having a head, a cap (60) supporting an upper side of the head of the bone screw, a pressing bush (70) for pressing the cap, and the cap and the A receiver member 80 having a bore to which the head of the bone screw is caught and a support bar is accommodated at the same time as the pressing bush is accommodated, and a bar fixing nut 90 which is screwed to the receiver member to fix the support bar. ), Wherein the cap 60 is a ring shape serving as a conical spring, and a curved surface 64 is formed on the rear surface of the cap 60 to be in contact with the curved surface of the head, and the push bush 70 is Since the inner surface of the cap is reduced in line with the outer end of the cap to make the curved surface of the cap adhere to the curved surface of the head, the support force of the bone screw is increased to prevent movement, and the assembly is easy, and support bars of various sizes can be used. There .

Description

Bone fixer {an internal fixator for spine}

The present invention relates to a bone fixing device for fixing without moving after correcting the bone, such as the spine in a normal state.

Conventional Korean Patent Publication No. 2000-48562 as a bone fixing device for fixing bones, such as the spine.

Patent Publication No. 2000-48562, as shown in Figure 1, a bone screw 10 having a spherical head 12, a cap 14 for supporting the head 12 of the bone screw, Receiver member having a central bore defining a tapered recess 16 for receiving the cap 14 and having a U-shaped channel in communication with the recess 16 to receive a support bar R therein. 18 and a set screw 20 screwed to the receiver member 18 to fix the support bar R. As shown in FIG.

The head 12 of the bone screw is formed with a tool receiving recess 22 for receiving a tool, the tool receiving recess 22 being defined at a flat cut upper surface 24 and the receiver member ( An inner thread 26 is formed in the channel portion of the 18 so that the set screw 20 is screwed, and a recess 28 is formed at the rear of the cap 14 to closely contact the head 12. . A plurality of slots are formed in the lower portion of the cap 14 and the recesses 28 to provide a constant compressive force to the head 12 of the bone screw.

When the set screw 20 is tightened, the support bar R compresses the cap 14, and the cap 14 compresses the bone screw 10 vertically while pressing the tapered recess 16 of the receiver member. Or it is fixed in a state inclined at a predetermined angle.

By the way, the conventional bone fixing device, such as the Korean Patent Publication No. 2000-48562, the head 12 is seated in the tapered recess 16 due to the weak support force is moved by the external disturbance to the original support state It cannot be maintained.

In order to solve this problem, but has been disclosed a bone fixing device of various configurations, there was a problem that not only easy to assemble but also satisfactory support of the bone screw.

Accordingly, the present invention has been made to solve the above problems, an object of the present invention is to provide a bone fixing device that is easy to assemble and use a support bar of various sizes as well as to prevent movement by increasing the bearing capacity of the bone screw. have.

Bone fixing device according to the present invention for achieving the above object is a bone screw having a head, a cap for supporting the upper side of the head of the bone screw, the pressing bush pressing the cap, the cap and the pressing bush is And a receiver member having a bore in which the head of the bone screw is caught and a support bar is received, and a bar fixing nut screwed to the receiver member to fix the support bar, wherein the cap is a cone. As a ring shape that serves as a spring, the back surface of the cap is formed in contact with the curved surface of the head, the push bush is in line contact with the outer surface end of the cap to reduce the inner diameter of the cap to reduce the curved surface of the cap Characterized in that the structure is in close contact with the curved surface of the head.

The upper surface of the pressing bush is formed with a channel having inclined surfaces on both sides so as to be pressed by a support bar of various sizes.

It is preferable that recessed portions having a predetermined depth are formed on both sides of the outer surface of the pressing bush, and punched grooves having a predetermined depth are formed on the outer surface of the receiver member so as to easily protrude a portion of the inner surface of the receiver member toward the recessed portion with a punch. .

It is preferable that a plurality of grooves are formed on the outer surface of the head so as to increase friction with the cap.

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

As shown in FIG. 2, the bone fixing device according to the present invention includes a bone screw 50 having a head 52, and a cap 60 is formed on an upper side of the head 52 of the bone screw 50. And a pressing member (70) pressing the cap (60) and receiving the cap (60), the pressing bush (70), and the support bar (R) and fixing the receiver member by a bar fixing nut (90). It is a structure provided with 80.

The bone screw 50 is composed of the head 52 and the spiral portion 54 is embedded in the bone as shown in FIG.

The head 52 has a spherical shape with a flat top cut, and a hexagonal groove 56 is formed to a predetermined depth so as to easily turn by inserting a tool such as a wrench on the flat cut surface. The hexagonal groove may be made of various angular grooves. A plurality of grooves 58 are formed on the outer surface of the head 52 to be inclined along the circumferential direction so as to increase the friction force with the cap 60. The outer surface of the head 52 may be provided with a knurled (knurl: shape) to increase the frictional force with the cap (60).

The helix 54 is pointed so that its lower end is easily nailed to the bone, and the valley diameter thereof becomes smaller toward the lower side, while the diameter of the helix is the same. If the screw thread of the same screw height is formed on the same outer diameter of the spiral screw, the fixing force is weakened due to external force, and the bone screw shakes. To solve this problem, the outer diameter of the screw screw decreases toward the end of the spiral screw. However, this structure has a problem that the bone screw is broken due to the decrease in rigidity, as the bone diameter becomes smaller toward the lower side as in the present embodiment, while the structure of the same diameter of the helix of the spiral portion is firmly fixed to the bone rigidity Can be prevented from deteriorating.

As shown in FIG. 5, the cap 60 has a ring shape that serves as a conical spring, and a hole 62 communicating with the hexagonal groove 56 is formed at the center thereof, and the head is formed at the rear thereof. The curved surface 64 is formed in contact with the curved surface of 52, the upper surface 66 is formed of an inclined surface concave toward the inner side, the outer surface 68 is a shape formed with an inclined surface that becomes smaller toward the lower side. Accordingly, the cap 60 has a conical shape with a triangular cross-section of the upper surface 66, the outer surface 68, and the curved surface 64, and the pressing bush 70 has an outer surface of the cap 60. It is in contact with the end.

The curved surface 64 may be provided with a knurl (knurl shape) to increase the frictional force with the head (52).

The cap 60 is made of stainless steel, alloy steel containing titanium, cobalt, chromium or the like.

The pressing bush 70 is in linear contact with the outer surface end of the cap 60 to reduce the inner diameter of the cap 60 so that the curved surface 64 of the cap 60 is in close contact with the curved surface of the head 52. As shown in Fig. 6, the upper surface thereof has channels 72 having inclined surfaces 72a on both sides thereof to be pressed by support bars of various sizes, and in the center thereof, holes 62 and bones of the cap. The hole 74 which communicates with the hexagonal groove 56 of a screw is formed, and the outer surface is formed in the cylindrical shape in which the recessed part 76 of predetermined depth was formed. The support bar R is seated in the channel 72 and is fixed by the bar fixing nut 90.

As shown in FIG. 4, the receiver member 80 includes a bore 82 formed in the longitudinal direction such that the cap 60 and the pressing bush 70 are accommodated and the head 52 of the bone screw is caught. And a U-shaped channel 84 formed to penetrate and support the support bar R, and a portion of an inner surface of the receiver member 80 is punched on an outer surface of the receiver member 80. Punch grooves 86 of a predetermined depth are formed so as to easily protrude toward them.

The lower inner surface of the bore 82 is formed with a head locking portion 82a having a curved surface to catch the head 52. A chamfer is formed at the lower end of the head locking portion 82a.

The bore 82 includes the head catching portion 82a, the receiving portion 82b formed above the head catching portion 82a so that the cap 60 and the pressing bush 70 are accommodated, and the bar is fixed. The nut 90 consists of a threaded portion 82c to which the nut is screwed.

The thread of the thread portion 82c is a trapezoidal screw to prevent deformation of the receiver member 80 and to be optimal in terms of force transmission, fastening force and anti-loosening. That is, in the case of a triangular screw, when the bar fixing nut 90 is fastened, the fastening force is excellent, but the force transmission force is small in the longitudinal direction, and since the receiver member is opened radially after the fastening, a separate cap must be coupled to the outside. have. In addition, the square screw has an excellent force transfer force in the longitudinal direction, but has a disadvantage in that it can be released after tightening. However, in the trapezoidal screw, the clamping force and the force transmission force are simultaneously maintained at appropriate values, and the cap does not need to be coupled to the outside of the receiver member.

In addition, the trapezoidal screw is preferably formed to have an inclination larger than the inclination of the lower surface F2 of the screw thread so that the bar fixing nut is easily assembled and not loosened. That is, when the angle of the upper side is larger than the angle of the lower side, the bar fixing nut 60 can be easily fastened at the time of initial tightening from the upper side, the deformation is minimized even when the force acts in the reverse direction, and the threaded portion 82c ) And the bar fixing nut 90 to increase the screw precision to prevent loosening.

The bar fixing nut 90 has a cylindrical shape formed on the outer circumferential surface of the screw thread screwed to the threaded portion 82c of the receiver member, and has a hexagonal groove formed at the center thereof.

In the assembly of the bone fixing device according to the present invention configured as described above, first, the bone screw 50 is inserted into the bore 82 of the receiver member 80 on the upper side of the receiver member 80 to the head locking portion 82a. The head 52 is seated and the cap 60 and the pressing bush 70 are sequentially placed in the receiving portion 82b.

Next, a wrench is inserted into the hexagonal groove 56 of the head 52 through the holes of the pressing bush 70 and the cap 60 to fix the bone screw 50 to the bone, and the support bar R is received from the receiver. After seating on the upper side of the pressing bush 70 across the U-shaped channel 84 of the member 80 and the channel 72 of the pressing bush 70, tighten the bar fixing nut 90 to tighten the bone screw ( 50).

The fastening force of the bar fixing nut 90 is transmitted to the head 52 through the support bar R, the pressing bush 70 and the cap 60 in sequence, and the pressing bush 70 is the cap 60 Since the inner diameter of the cap 60 is reduced by linear contact with the outer surface end of the c), the curved surface 64 of the cap is brought into close contact with the curved surface of the head 52, thereby increasing the bearing force of the bone screw 50, so that the bone screw is It is firmly fixed and supported without moving.

On the other hand, by punching through the punch groove 86 with a punch to easily protrude a portion of the inner surface of the receiver member 80 toward the concave portion 76 it is possible to prevent the movement of the pressing bush (70).

In addition, since the channels 72 having inclined surfaces are formed on both inner surfaces of the pressing bush 70, support bars of various sizes may be seated. In addition, since the groove 58 is formed in the head 52, the friction force with the cap 60 is increased to improve the bearing force of the bone screw 50.

The present invention is not limited to the above embodiments and can be implemented in various modifications.

According to the bone fixing device according to the present invention, by increasing the support force of the bone screw to prevent movement as well as easy to assemble and can use a support bar of various sizes.

1 is an assembly cross-sectional view showing an example of a conventional bone fixing device;

Figure 2 is an assembly cross-sectional view of the bone fixing device according to the present invention,

Figure 3 is an elevation view showing a partial cut off the top of the bone screw of Figure 2,

4 is a sectional view showing the receiver member of FIG. 2;

5 is a cross-sectional view showing the cap of FIG.

6 is an elevational sectional view, a plan view, and a right side view showing the pressing bush of FIG.

<Description of the symbols for the main parts of the drawings>

50: bone screw 52: head

54: spiral 58: glue

60: cap 64: curved surface

70: push bush 72: channel

76: recessed portion 80: receiver member

86: punch groove 90: bar fixing nut

Claims (6)

The support bar has a bone screw having a head, a cap for supporting the upper side of the head of the bone screw, a press bush for pressing the cap, a bore for accommodating the cap and the press bush, and a bore for the head of the bone screw. A receiver member having a U-shaped channel accommodated therein, and a bar fixing nut screwed to the receiver member to fix the support bar, The cap has a ring shape that serves as a conical spring, the back surface of the cap is formed in contact with the curved surface of the head, And the push bush is in line with the outer surface end of the cap to reduce the inner diameter of the cap so that the curved surface of the cap is in close contact with the curved surface of the head. The method of claim 1, Bone fixing device characterized in that the upper surface of the pressing bush is formed with a channel having inclined surfaces on both sides so as to be pressed by a support bar of various sizes. The method of claim 1, Recesses having a predetermined depth are formed at both sides of the outer surface of the pressing bush, And a punch groove having a predetermined depth is formed on an outer surface of the receiver member so as to easily project a portion of the inner surface of the receiver member toward the recessed portion with a punch. The method of claim 1, The outer surface of the head is a bone fixing device characterized in that a plurality of grooves are formed to increase the friction with the cap. The method of claim 1, Bones (knurl) is formed on the outer surface of the head to increase the friction with the cap. The method of claim 1, Bones (knurl) is formed on the curved surface of the cap to increase the frictional force with the head.