KR101978674B1 - Multi―function Dissector - Google Patents

Abstract

The present invention relates to a multifunctional dissector for an operation and, more specifically, to a multifunctional dissector for an operation, in which a first scissor body and a second scissor body are mutually rotated by a hinge unit, and each of the first and second scissor bodies includes a cutting unit for cutting a soft tissue and a handle unit integrated with the cutting unit. One scissor body between the first and second scissor bodies includes a penetrating hole through which an operation tool penetrates to be introduced to the inside of the cut soft tissue. Therefore, the single multifunctional dissector for an operation dissects a soft tissue, sufficiently retracts a cut area and, at the same time, allows a medical drill bit to pass through the penetrating hole in order to secure a space for perforating a bone, implanting a cannulated screw, and inserting an operation wire, thereby conducting a stable and consistent fracture operation.

Description

Multi-function Dissector}

Field of the Invention [0002] The present invention relates to a medical die sector, and more particularly, to a multifunction surgical die sector capable of performing both of dissection, retraction, and space securing functions for drilling.

Generally, in the field of medical surgery, during the orthopedic surgery, there is a fracture reduction operation for the purpose of lowering the fractured bone.

This fracture surgery is performed by aligning the cut part of the bone in the correct position, then pressing it, and immobilizing the cut bone until it is united.

A variety of bone fixation devices are used for this purpose, among which bone screws that are placed directly on the bone and press the fractured bone are representative. In the fracture surgery using the compression bone screw, a soft tissue of a fracture patient is cut and a bone screw is placed on a fracture site using a drill to bind the fractured bone.

In particular, the cancellous bone screw is a stable procedure in which a bone is punctured with a K steel wire (or a guide pin), the K wire is passed through the guide pin, and the screw is inserted along the K wire (or guide pin).

On the other hand, in orthopedic surgeons, bone marrow internal surgery is performed in the case of humeral shaft and proximal fracture. In order to place a screw in the distal part of the bone marrow, the muscle is longitudinally incised while avoiding nerve and blood vessels, After pulling a retractor to secure the field of view, the drill is used to puncture the bone.

Conventional fracture surgery requires careful incision of the thick muscle layer with surgical scissors and traction of the muscles with a retractor in a narrowed space so that it requires a lot of manpower for surgery and it is difficult to perform stable and consistent surgery there was.

Further, a sufficient space for inserting a drill bit for perforating the bone must be secured. In addition, since the space is secured only by pulling the muscle using the retractor, it is also difficult to perform a stable and consistent operation.

Korean Patent Registration No. 10-0609268 (published on Aug. 08, 2006)

SUMMARY OF THE INVENTION The present invention has been made in an effort to solve the above-described problems, and it is an object of the present invention to provide a surgical instrument having a function for cutting a soft tissue and a function for traction of an incision site, The present invention relates to a multifunction surgical die sector capable of performing a surgical operation.

The present invention conceived to attain the above object is a die sector in which a first scissors body and a second scissors body each having a cutting portion for cutting soft tissue and a knob integrally formed on the cut portion are pivoted by a hinge portion, The scissors body of any one of the first and second scissors bodies is formed with a through hole through which the surgical instrument flowing into the cut soft tissues passes.

And locking means for holding the cut portions of the first and second scissors bodies in a mutually spaced relationship.

Wherein the locking means includes a locking protrusion formed on the lower side of the first scissors body and a curved guide surface formed on the upper side of the second scissors body so that the locking protrusion is guided to the locking groove, And a locking groove in which the projection is received.

And the locking protrusion is received in the locking groove so that the first and second scissors bodies are fastened to each other when the cut portions of the first scissors body and the second scissors body are extended beyond a certain range. do.

In the present invention, a single die sector cuts soft tissues, sufficiently pulls the incision site, passes through a medical drill bit through a through hole, and inserts a hole for inserting a bone screw, It is possible to perform stable and consistent fracture surgery.

BRIEF DESCRIPTION OF THE DRAWINGS The accompanying drawings, which are incorporated in and constitute a part of the specification, illustrate preferred embodiments of the invention and, together with the description, serve to further the understanding of the technical idea of the invention, And shall not be construed as interpretation.
1 and 2 are perspective views showing a multi-function surgical die sector according to an embodiment of the present invention,
3 is an exploded perspective view and partially enlarged view showing a multifunctional surgical die sector according to an embodiment of the present invention,
4 is an exemplary view showing an operating state of a multi-function surgical die sector according to an embodiment of the present invention,
FIG. 5 is a perspective view and a partial enlarged view showing a multi-function surgical die sector according to an embodiment of the present invention,
6 is a view illustrating a state in which a drill bit passes through a through hole in a multifunctional surgical die sector according to an embodiment of the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, preferred embodiments of a multifunctional surgical die sector according to the present invention will be described in detail with reference to the accompanying drawings.

FIG. 3 is an exploded perspective view and a partial enlarged view of a multifunctional surgical die sector, and FIG. 4 is a cross-sectional view illustrating a multifunction surgical die sector according to an embodiment of the present invention. FIG. 5 is a perspective view and a partially enlarged view of a multifunctional surgical die sector, and FIG. 6 is an exemplary view showing a state in which a drill bit passes through a through hole in a multifunctional surgical die sector.

1 to 6, a multifunctional surgical die sector according to a preferred embodiment of the present invention includes a first scissors body and a second scissors body integrally formed with a knob portion and rotated by a hinge portion Which will be described in detail as follows.

The first scissors body 100 includes a cut portion 110 formed on one side with a cutting edge 111 for cutting the soft tissue directly and in contact with the soft tissue in an accurate and straight manner, And a grip portion 120 which is a portion for self-gripping.

The second scissors body 200 includes a cutting portion 210 having a cutting blade 211 formed on one side thereof for directly and smoothly cutting the soft tissue in direct contact with the soft tissues like the first scissors body 100 And a handle 220 which is formed integrally with the cutting portion 210 and is a portion gripped by the operator.

The first scissors body 100 and the second scissors body 200 having such a configuration are coupled in a staggered state by the hinge 300. The first scissors body 100 and the second scissors body 200 The hinge shafts 310 provided on the hinge parts 300 are formed on the first scissors body 100 and the second scissors 100 in a state where the cutting edges 111 and 211 formed on the cutouts 110 and 210 are facing each other, The first scissors body 100 and the second scissors body 200 are hinged together by passing through the body 200 in order.

The first scissors body 100 and the second scissors body 200 are rotated by the hinge parts 300 provided at the central portions of the first scissors body 100 and the second scissors body 200, 111, and 211, respectively.

Meanwhile, the hinge portion 300 may further include a through hole 400. That is, a through hole 400 penetrating the hinge portion 300 is formed. Here, the through holes 400 are formed in a direction passing through the front and rear sides of the scissors body of either the first scissors body 100 and the second scissors body 200 hinged to each other.

The through hole 400 may be formed through a shear body of one of the first shear body 100 and the second shear body 200 or may be formed to penetrate through one shear body and simultaneously be inserted into the hinge shaft 310 As shown in FIG. The drill bit D for drilling the bone through the through hole 400 or a threaded screw (not shown) to be inserted into the bone or a thin K-wire (not shown) of about 1.6 mm is passed through the through- It can be made of inner and outer diameters.

When the knobs 120 and 220 are folded together, the cut portions 110 and 210 are cut off due to the principle of the lever, (Muscle) is severed.

When the bone is exposed through the incision of the muscles, the muscles of the incisions are pulled by the incisions 110 and 210 by mutually opening the incisions between the incisions 110 and 210. In the state where the incision portion of the muscles is pulled by the cutting portions 110 and 210, the drill bit D is passed through the through hole 400 to puncture the bone, or a screw thread can be inserted into the bone, K-wire and so on.

As described above, since the multifunction surgical die sector according to the present invention can traverse the muscles at the incision site simultaneously with the soft tissues incised, it is not necessary to pull the muscles of the incision site using a separate retractor, Since a sufficient space for inserting the drill bit D is secured through the hole 400, stable and consistent fracture surgery can be performed.

The multifunction surgical die sector according to the present invention is characterized in that the cut portions 110 and 210 of the first scissors body 100 and the second scissors body 200 are spaced apart from each other in order to expand the cut portion and keep the cut portion open And a locking means for retaining the locking device in the locked state.

Here, the locking means will be described. A locking protrusion 130 protrudes from the lower side of the first scissors body 100.

The second scissors body 200 includes a locking protrusion 130 for receiving the locking protrusion 130. The locking protrusion 130 is guided to the locking slot 231 by the second scissors body 200, And a locking groove 231 is formed in the guide surface 230. The locking protrusion 231 is formed on the guide surface 230. [

For example, in cutting the soft tissue, the internal angle between the cut portions 110, 210 of the first scissors body 100 and the second scissors body 200 is extended up to a range of about 20 to 30 degrees.

At this time, if the internal angle between the cut portions 110 and 210 of the first scissors body 100 and the second scissors body 200 exceeds the range of about 40 degrees, the lower end of the locking protrusion 130 is curved And is guided along the guide surface 230 to be accommodated in the locking groove 231. As shown in FIG. Thereby, the first scissors body 100 and the second scissors body 200 are firmly fastened to each other, so that the incision can be firmly pulled.

In order to sufficiently pull the incision site, the thickness of the cuts 110 and 210 contacting the muscles of the incision site must be thick. Therefore, the multifunctional surgical die sector of the present invention has a thicker It is preferable that the thickness is 1.5 cm or more.

Since the cut portions 110 and 210 that pull the cut portion in contact with the incision portion are thickly formed, the contact area between the incision portion and the cut portions 110 and 210 increases so that the incision portion can be effectively pulled .

While the present invention has been described in connection with what is presently considered to be practical exemplary embodiments, it is to be understood that the invention is not limited to the disclosed embodiments, but, on the contrary, And such variations and modifications are intended to fall within the scope of the appended claims.

The present invention relates to a multifunctional surgical die segment, which can be used for insertion of a distal screw in an orthopedic humeral shaft and proximal fracture.

100: first scissors body
110, 210:
120, 220: Handle portion
130: locking protrusion
200: second scissors body
230: guide face
231: Locking home
300: Hinge section
400: Through hole

Claims (4)

The first scissors body 100 and the second scissors body 200 having the cutouts 110 and 210 cutting the soft tissue and the cutouts 110 and 210 integrally formed with the grips 120 and 220, And a hinge unit (300) having a hinge shaft (310)
The first scissors body 100 is provided with a through hole 400 through which the surgical instrument introduced into the cut tissue is passed,
Wherein the through hole (400) is formed in a direction passing through the front and rear sides of the first scissors body (100), and is horizontally penetrated through the hinge shaft (310). The method according to claim 1,
Locking means for holding the cut portions (110, 210) of the first and second scissors bodies (100, 200) in a mutually open state; Further comprising a plurality of openings in the die. 3. The apparatus according to claim 2,
A locking protrusion 130 protruding from the lower side of the first scissors body 100; And
A curved guide surface 230 formed on the upper side of the second scissors body 200 and a guide surface 230 formed on the guide surface 230 so that the locking protrusion 130 is guided to the locking groove 231, A locking groove 231 for receiving the locking groove 231;
Wherein the first and second openings of the first and second openings are substantially parallel to each other. The method of claim 3,
When the cut portions 110 and 210 of the first scissors body 100 and the second scissors body 200 are extended beyond a certain range, the locking protrusion 130 is received in the locking recess 231 Wherein the first scissors body (100) and the second scissors body (200) are fastened to each other.

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