KR100596560B1 - Guide pin for operation and method of fabrication thereof - Google Patents

Abstract

The present invention relates to a surgical guide pin for guiding the insertion of the medical cannulated screw (Cannulated Screw), the tip has a pointed pin-shaped body, the screw structure is formed in the portion adjacent to the tip, titanium (Ti) and nickel (Ni) There is provided a surgical guide pin, characterized in that consisting of a shape memory alloy containing as a main component.

In addition, according to the present invention, the step of cold working the wire of the shape memory alloy having a diameter of 1 ~ 5mm; Pulling and holding the cold worked wire at a temperature between 300 and 850 ° C. to perform shape memory heat treatment in a straight line; Cutting the shape memory heat treated wire into a predetermined length; And forming a screw structure on a portion adjacent to the front end of the cut wire.

Surgical guide pin according to the present invention is provided with a function to restore the shape itself can be maintained excellent linearity even after repeated use for a long time.

Tubular screw, guide pin, shape memory alloy, cold working, atomic%

Description

Surgical guide pin and its manufacturing method {GUIDE PIN FOR OPERATION AND METHOD OF FABRICATION THEREOF}

The following drawings attached to this specification are illustrative of preferred embodiments of the present invention, and together with the detailed description of the invention to serve to further understand the technical spirit of the present invention, the present invention is a matter described in such drawings It should not be construed as limited to

1 is a perspective view showing the appearance of the surgical guide pin according to a preferred embodiment of the present invention.

Figure 2 is a side view of the surgical guide pin according to a preferred embodiment of the present invention.

Figure 3 is a flow chart showing the manufacturing process of the surgical guide pin according to a preferred embodiment of the present invention.

Figure 4 is an exploded perspective view showing an example of the use of the surgical guide pin according to a preferred embodiment of the present invention.

<Description of main reference numerals in the drawings>

10 ... Pipe thread 100 ... Pin body

12,101 ... screw structure

The present invention relates to a surgical guide pin and a method for manufacturing the same, and more particularly, even if the shape is deformed by an external force to restore itself, the operation can maintain excellent linearity when guiding the medical cannulated screw (Cannulated Screw) It relates to a guide pin for and a manufacturing method thereof.

Medical tubular screws (see 10 in FIG. 4), which are widely used for fixing fractured bones, are difficult to be accurately inserted into the treatment site by themselves, and thus are used as guided by guide pins penetrating the inner hollow 11. It is common to be.

At present, the guide pin is a straight type having a diameter of 0.25 to 0.4 mm, which is smaller than the tubular screw 10, and is widely used. In addition, even if it is forcibly fitted, there may be a problem that can not perform a function as a guide or is not properly combined with the associated mechanism.

Therefore, the most important characteristic to be provided in the guide pin, the tubular screw 10 is smoothly guided by the guide pin can be said to maintain a straight straight shape so that it can be inserted into the surgical site, the normal guide pin Is a permanently deformed vulnerability, even if only a few modifications are made during use. Currently used guide pins are usually processed to have a fine diameter of 1 ~ 5mm, while made of stainless steel or titanium (Ti) alloy is permanently deformed when an external force of about 0.5% is applied to form a straight shape Will lose.

The present invention was devised to solve the above problems, and guides the insertion of the medical tubular screw into the surgical site, but is formed of an alloy capable of memorizing the magnetic shape so that it can be restored by itself even if it is deformed by external force. The purpose is to provide a surgical guide pin that can maintain the linearity.

Surgical guide pin according to the present invention to achieve the above object, in the surgical guide pin for guiding the insertion of medical tubular screw, the tip has a pointed pin-shaped body, but the screw structure is formed in the portion adjacent to the tip And a shape memory alloy composed mainly of titanium (Ti) and nickel (Ni).

Preferably, the shape memory alloy may be formed of a titanium nickel (TiNi) alloy composed of 40 to 50 atomic% titanium (Ti) and 50 to 60 atomic% nickel (Ni).

In addition, one or two or more elements selected from the group consisting of molybdenum (Mo), copper (Cu), cobalt (Co), and iron (Fe) may be further added to the titanium nickel (TiNi) alloy.

According to another aspect of the present invention, a method for manufacturing a surgical guide pin for guiding a medical tubular screw (Cannulated Screw), comprising the steps of: (a) cold working the wire of the shape memory alloy having a diameter of 1 ~ 5mm; (b) pulling and holding the cold worked wire at a temperature between 300 and 850 ° C. to perform shape memory heat treatment in a straight line; (c) cutting the shape memory heat treated wire into a predetermined length; And (d) forming a screw structure at a portion adjacent to the front end of the cut wire.

In the cold working step (a), it is preferable to proceed so that the cross-sectional reduction ratio of the wire is 5 to 30%.

Heat treatment of step (b) may be performed for 8 minutes or more at a temperature condition of 300 ~ 600 ℃.

In addition, the cutting of step (c) is preferably carried out so that the length of the wire is 50 ~ 600mm.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings. Prior to this, terms or words used in the specification and claims should not be construed as having a conventional or dictionary meaning, and the inventors should properly explain the concept of terms in order to best explain their own invention. Based on the principle that can be defined, it should be interpreted as meaning and concept corresponding to the technical idea of the present invention. Therefore, the embodiments described in the specification and the drawings shown in the drawings are only the most preferred embodiment of the present invention and do not represent all of the technical idea of the present invention, various modifications that can be replaced at the time of the present application It should be understood that there may be equivalents and variations.

1 is a perspective view showing the appearance of a surgical guide pin according to a preferred embodiment of the present invention.

Referring to FIG. 1, the present invention has a pin-shaped body having a pointed tip, while the pin-shaped body 100 is formed of a shape memory alloy.

The pinned body 100 is sharply formed by its tip portion being preferably conical processed. In addition, a screw structure 101 is formed at a portion adjacent to the tip to enter the surgical site. Here, the height of the screw thread constituting the screw structure 101 may be formed, for example, 1.2mm, 3mm, etc., the pitch may be formed, for example, 0.25mm, 0.5mm and the like.

Referring to the configuration of Figure 2, the pin-shaped body 100 is a diameter A 1 ~ 5mm, length B, considering the smooth guide action for the conventional tubular screw, the preferred insertion efficiency for the treatment site, etc. Is 50 to 600 mm, the length C from the tip to the screw structure 101 is 10 to 15 mm, the inclination angle α of the tip cone structure can be formed to have a value of approximately 15 to 40 degrees.

The shape memory alloy, which is a material of the fin-shaped body 100, is an alloy having a property of returning to a shape before deformation even when it is deformed at room temperature (or low temperature) and heated to a predetermined temperature. The main component of titanium (Ti) and nickel (Ni) It is formed as follows.

Preferably, the shape memory alloy is 40 to 50 atomic percent titanium (Ti) and 50 to 60 atomic percent nickel (Ni) to have a shape memory characteristic that can be restored without deterioration even if it is about 10% or less. It may be made of a titanium nickel (TiNi) alloy. More preferable composition ratios of the titanium (Ti) and nickel (Ni) are 44 to 49.5 atomic% and 50.5 to 56 atomic%, respectively. In addition, a predetermined amount of one or two or more elements selected from the group consisting of molybdenum (Mo), copper (Cu), cobalt (Co), and iron (Fe) may be further added to the titanium nickel (TiNi) alloy. Titanium nickel (TiNi) alloy of such a composition, while maintaining a constant critical stress in the range of 0 ~ +40 ℃, can provide a critical stress characteristic corresponding to the range of 250 ~ 500MPa. Here, "atomic%" is a unit system which means the percentage of the number of elemental atoms with respect to the total number of atoms which comprise an alloy.

Figure 3 shows the manufacturing process of the surgical guide pin according to a preferred embodiment of the present invention.

Referring to FIG. 3, first, cold working of a wire of a shape memory alloy having a diameter of 1 to 5 mm is performed (step S100). The cold working is a process of giving plastic deformation below a recrystallization temperature with respect to the shape memory alloy wire, and preferably, the cross-sectional reduction ratio of the wire may be 5 to 30%.

After the cold working is completed, the process of pulling the wire at a temperature between 300 ~ 850 ℃ constrained to shape-memory heat treatment in a linear form is performed (step S110). The heat treatment process is more preferably carried out for at least 8 minutes at a temperature of 300 ~ 600 ℃ in consideration of the strength, elastic properties, shape memory effect, etc. required for the guide pin.

Subsequently, a process of cutting the heat-treated wire into a predetermined length is performed (step S120). At this time, the cutting degree is preferably progressed so that the length of the wire is 50 ~ 600mm.

Subsequently, the manufacturing process is completed by performing the process of lathe-processing the part adjacent to the front-end | tip of the said cut wire to form the screw structure 101 (step S130).

Figure 4 shows an example of the use of the surgical guide pin according to a preferred embodiment of the present invention. As shown in the figure, the surgical guide pin of the present invention is inserted through the hollow 11 of the medical tubular screw 10, the screw structure 12 is formed in the tip portion of the tubular screw for the surgical site ( 10) guide the insertion. In particular, the surgical guide pin of the present invention, since the pin-shaped body 100 is made of a shape memory alloy, even if its shape is deformed by external force, it is restored to its original state at its own use temperature.

Although the present invention has been described above by means of limited embodiments and drawings, the present invention is not limited thereto and will be described below by the person skilled in the art to which the present invention pertains. Of course, various modifications and variations are possible within the scope of the claims.

Surgical guide pins according to the present invention, for example, because it is provided with a function of restoring its own shape even about 10% of the deformation there is economical that can be used repeatedly for a long time compared to existing products.

In addition, the present invention is to maintain the linearity by the shape memory characteristics within the use temperature provides an effect that can be performed more precisely and stably the procedure using a tubular screw.

Claims (7)

In the surgical guide pin for guiding the insertion of the medical cannulated screw (Cannulated Screw), Surgical guide pin, characterized in that the tip has a pointed pin-shaped body, the screw structure is formed in the portion adjacent to the tip, consisting of a shape memory alloy mainly composed of titanium (Ti) and nickel (Ni). The method of claim 1, The shape memory alloy is a surgical guide pin, characterized in that the titanium nickel (TiNi) alloy composed of 40 to 50 atomic% titanium (Ti), 50 to 60 atomic% nickel (Ni). The method of claim 2, wherein the titanium nickel (TiNi) alloy, Surgical guide pins, characterized in that one or more elements selected from the group consisting of molybdenum (Mo), copper (Cu), cobalt (Co) and iron (Fe) is further added. In the manufacturing method of the surgical guide pin for guiding the insertion of the medical cannulated screw (Cannulated Screw), (a) cold working the wire of the shape memory alloy having a diameter of 1 to 5 mm; (b) pulling and holding the cold worked wire at a temperature between 300 and 850 ° C. to perform shape memory heat treatment in a straight line; (c) cutting the shape memory heat treated wire into a predetermined length; And (d) forming a screw structure in a portion adjacent to the tip of the cut wire; surgical guide pin manufacturing method comprising a. The method of claim 4, wherein Cold working of the step (a), the guide pin manufacturing method, characterized in that the progress of the cross-sectional reduction ratio of the wire is 5 to 30%. The method of claim 4, wherein The heat treatment of step (b), the surgical guide pin manufacturing method, characterized in that proceeded for more than 8 minutes at a temperature condition of 300 ~ 600 ℃. The method of claim 4, wherein Cutting of the step (c) is, the guide pin manufacturing method for surgical, characterized in that the length of the wire proceeds to 50 ~ 600mm.

Images