KR20190097437A - Retrector for rhinoplastic method of the nonincisional nose - Google Patents

Abstract

The present invention relates to a retractor for increasing an effect of non-incision nose tip rhinoplasty and nose side reduction rhinoplasty, in which a retractor hanger (130) connected to a hinge point (113) in the middle of both sides of a nose pull hook adjusting unit (110) is formed of a rod, a position adjusting connector (140) is formed in a cylindrical shape to the rear of the hinge point (113) of the nose pull hook adjusting unit (110), the retractor hanger (130) is fitted into a coupling hole (145) of the position adjusting connector (140) and is coupled and fixed by a position adjusting connector fixing screw (143), and nose height adjusting supporters (141a, 141b) forming nose height adjusting rods (143a, 143b) moved to the rear left and right sides of the position adjusting connector (140) is formed, thereby adjusting the height or the angle according to the size of the person′s nose.

Description

New Retractor for rhinoplastic method of the nonincisional nose

The present invention relates to a retractor required for non-incision nose tip molding and nose wing (nostril) reduction molding, and in particular, a non-incision that beautifully operates the nose tip and nose wings by a newly developed new retractor without incision. The present invention relates to neural retractors for rhinoplasty.

Figure 1 is a perspective view showing a nose molding prosthesis insert device of the prior art, which is a pair of upper and lower forceps member 10, 20 coupled to be crossed so as to rotate about the axis 30 as shown ), And one side of the upper and lower tong members (10, 20) is formed in the grip portion (11, 21) having a fixed portion 12, 22 to be joined to each other, the upper tong member The other side of the (10) forms a curved mounting end 13 of uniform thickness in the shape of the upper curved portion 41 of the complementary object 40, the end of the curved mounting end 13 has a narrow keyhole shape The pin fitting groove 14 is formed, and the width of the lower tongs member 20 is narrower than that of the curved mounting end 13 and has a substantially semi-circular cross section having a plurality of mounting protrusions 24 thereon. The lower mounting end 23 is formed.

In order to use the conventionally designed complementary material inserting device as described above, as shown in FIGS. 1 and 2, the fixing part 12 is in a state in which the supplementary material 40 is sandwiched between the mounting ends 13 and 23. ) And the gripping portions 11 and 21 are fixed.

At this time, the upper surface mounting end 13 has a rounded cross section similar to the curved portion 41 of the prosthetic material 40, and the lower mounting end 23 has a fractured bone 42 at the lower portion of the prosthetic material 40. ) Is located in the part to hold the compensation object 40 does not move.

The mounting protrusion 24 of the lower mounting end 23 and the pin fitting groove 14 of the curved mounting end 13 serve to prevent the complementary object 40 from moving laterally.

On the other hand, the nose portion is formed in the incision portion that can be inserted into the mounting end 13 (23) for nose plastic surgery, the pocket portion through which the prosthesis 40 can be formed.

The mounting ends 13 and 23 holding the complementary object 40 are inserted into the pockets through the cutouts formed in this way, and the wide curved mounting ends 13 are rounded like noses and the like. The incision is easily inserted into the pocket even when the incision is made small compared to an inserting apparatus having a flat mounting end.

In addition, even at the boundary between the cartilage and the tibia where resistance is most received when the prosthesis 40 is inserted, the curved mounting end 13 is round like a nose and the lower mounting end 23 is narrow, so that the insertion is smooth without any phenomenon. do.

When the mounting ends 13 and 23 are inserted into the pockets in the nose, and the prosthetic object 40 is placed in a suitable position, as shown in FIG. 5, a pin 50 is formed at the end of the curved mounting end 13. Insert the pin fitting groove 14 to fix the implant 40, and then open the grip portions 11 and 21 to remove the mounting ends 13 and 23 in the state where only the prosthesis 40 is left. Insertion of 40) is completed.

Such a technique is a technique applied to the operation of the inside of the nose, a mechanism for lifting the nose during surgery is developed in FIG.

As shown in Figure 3, the retractor 60 is a retractor hanger 62 is connected to the nose hanger 61 is formed wide in the lower portion, the ring 65 is formed on the upper side of the forceps during surgery It is possible to hang on the support using a hook such as, the retractor hanger 62 is a position adjustment connector is fixed by a fixing screw.

However, since the retractor 60 has a wide nose-shaped hanger 61 in a single plate shape, the retractor 60 should be used only by walking the nose part on one side. Surprisingly, problems continued.

Therefore, the present invention is to solve the above problems, the nose pull hook of the retractor to be able to hang both nose hole areas at the same time so that the surgeon can ease the operation by a wide open area, The purpose is to propose to apply the nose height adjustment base so that the upper part does not touch the nose area of the face.

The present invention is a retractor required for non-incision nose tip molding and nose wings (nostril) shrink molding, the retractor 100 is formed with a hinge puller 110 to both sides length, the hinge binding portion ( 112 is formed to combine both sides of the nose hanger adjuster 110 to the hinge point 113, the nose hanger 111 of the lower side is formed side by side to the left and right nose hanger (111a) (111b) to both sides. In addition, the nose pull hook adjusting unit 110 is formed on the upper portion of the gap adjusting screw portion 120 to adjust the width of the nose pull hook 111 around the hinge point 113, but the gap adjusting screw portion 120 The gap adjusting screw 121a is connected to the connecting portion 123a of the nose pulling hook adjusting rod 110b by a hinge, and the gap adjusting screw passed through the gap adjusting screw through hole 123b of the nose pulling hook adjusting rod 110a ( The gap adjusting nut 121b is fitted in the 121a), and the pulley adjusting base 110 is provided. Retractor hanger 130 is connected to the hinge point 113 in the middle of both sides is formed of a rod, the position adjustment connector 140 in the rear of the hinge point 113 of the nose pull hook adjustment unit 110 in a cylindrical shape Is formed, the retractor hanger 130 is fitted into the coupling hole 145 of the position adjustment connector 140 is fixed by the position adjustment connector fixing screw 143, the rear of the position adjustment connector 140 The nose height adjustment supporters 141a and 141b, which form the nose height adjustment rods 143a and 143b, which are directed to the left and right sides, are formed, and the tip of the non-incision nose is characterized in that the height or angle can be adjusted according to the size of the person's nose. It is a retractor necessary for molding and shrinking the nose.

And, in the present invention, the retractor hanger 130 is required for non-incision nose tip molding and nose blade (nostril) shrink molding, characterized in that the position adjustment connector 150 is fitted into the coupling hole 153. Retractor.

Therefore, the present invention has the effect that the surgeon can ease the operation of the nose pull hook of the retractor at the same time both sides of the nose hole wide open area, so that the upper part of the instrument does not touch the face nose area By applying the nose height adjustment base, it is effective to use surgical instruments according to the size of a person's nose without replacement.

1 is a perspective view showing a nose implantable implant insert of the first invention
Figure 2 is a perspective view showing a state in which the implant for the nose molding is conventionally inserted into the insertion apparatus of the first invention
Figure 3 is a perspective view of the retractor required for non-incision nose tip molding of the second conventional invention
Figure 4 is a perspective view of the new retractor required for non-incision nose tip molding of the present invention
5 is a state diagram used for the new retractor required for non-incision nose tip molding of the present invention
Figure 6 is a plan view of the new retractor required for non-incision nose tip molding of the present invention
Figure 7 is a plan view of the state of use for the new retractor required for non-incision nose tip molding of the present invention
Figure 8 is a real picture of the progress of nasal cartilage rearrangement after the progress of nasal cartilage rearrangement alone and the removal of fiber of the present invention
9 is a total of five surgical methods that can be expected to improve the shape of the tip of the nose, the thickness reduction effect of the present invention
10 is a real picture of the surgical method of the non-opening method without the nasal incision (nose incision) of the present invention
11 is a real picture of the classification of the nosewing of the nosewing (Nosewing) of the present invention
12 and 13 is a real picture showing the application of each type of the nosewing (Nosewing) of the present invention
Figure 14 is a real photograph showing a multi-stage knot way of the present invention

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

At this time, the thickness of the lines or the size of the components shown in the accompanying drawings for explaining the preferred embodiment of the present invention may be exaggerated or omitted for clarity and convenience of description, according to the reference numerals written in the drawings Terms given are terms defined in consideration of functions in the present invention, which may vary according to the intention or convention of a user or an operator.

Figure 4 is a perspective view of the new retractor required for non-incision nose tip molding of the present invention, Figure 5 is a state diagram for use of the new retractor required for non-incision nose tip molding of the present invention, Figure 6 is a non-incision nose tip of the present invention Fig. 7 is a plan view of the new retractor required for molding, and Fig. 7 is a plan view of the state of use of the retractor required for non-incision nose tip molding of the present invention.

As shown in FIG. 4, the retractor 100 of the present invention has both sides of the length of the nose hook adjustment stand 110, while forming a hinge binding portion 112 in the center portion of the nose pull hook adjustment bar ( 110 is coupled to the hinge point 113, the nose hanger 111 is formed in the lower side side by side to the left and right nose hanger (111a) (111b).

In addition, the nose pull hook adjusting unit 110 is formed on the upper portion of the gap adjusting screw portion 120 to adjust the width of the nose hook 111 around the hinge point 113, but the gap adjusting screw portion 120 is Spacing adjustment screw 121a is connected to the connecting portion 123a of the pulley hook adjusting unit 110b by a hinge, and the space adjusting screw 121a passed through the gap adjusting screw through hole 123b of the pulley hook adjusting unit 110a. The gap adjusting nut 121b is inserted into the gap adjusting nut 121b so that the width of the nose pull hook 111 can be adjusted.

In addition, the retractor hanger 130, which is connected to the hinge point 113 in the middle of both sides of the pulley hanger adjuster 110 is formed of a rod, the hinge point 113 of the pulley hanger adjuster 110 Position adjustment connector 140 is formed in the rear in the rear, the retractor hanger 130 is fitted into the coupling hole 145 of the position adjustment connector 140 is fixed and coupled by the position adjustment connector fixing screw 143 And, the nose height adjustment support portion 141a (141b) formed by forming the nose height adjustment rods (143a, 143b) to the rear left and right of the position adjustment connector 140 is formed, according to the size of the person's nose or height Can be adjusted.

In addition, the retractor hanger 130 is a position adjustment connector 150 is fitted into the coupling hole 153, and is fixed by the position adjustment connector fixing screw 151 to hold the center of gravity.

In addition, since the height of the retractor 100 may vary depending on the position at which the coupling is fixed, the retractor connecting forceps 160 having a scissors shape having a forceps function as a means for adjusting the retractor 100 are retractors 100. ) Can be used to hang on the retractor hanger (130).

8 is a real picture of the nasal cartilage rearrangement process and the process of nasal cartilage rearrangement after the removal of fiber alone, Figure 9 is a total of five surgical methods that can be expected to improve the shape of the tip of the nose, and the thickness reduction effect of the present invention 10 is a real picture of the surgical method of the non-opening method without the nasal incision (nose incision) of the present invention.

As shown in FIG. 8, the nose-beam is a non-open nose formation in which a laser is used to remove soft tissues in the nose to overcome the limitations of nose formation using basic nasal cartilage repositioning. .

The difference from the relocation method of the nasal cartilage is that the soft tissues in the nose (fat layer under the nose, fibromyalgia, SMAS tissue) can be removed as much as possible to expect the reduction of the nose. It is a non-open nose surgery that can be expected to reduce the thick nasal drops in the nasal classification.

Nose-beam includes a total of five surgical methods that are applied prior to the classification of the nose.

Nose-beams are classified into six types according to the thickness of the nose, cartilage size, thickness, and gap.

According to the above classification method, the detailed surgical method such as the number and location of nasal cartilage repositioning (suture) and the removal rate of the soft tissue inside the nose are performed. It can be said.

The nose classification in the nose-beam is as follows.

Nose skin thickness Ideal case for normal cartilage size, angle and thickness under normal categories (Type 1),

Nose Skin Thickness Under normal categories, weak cartilage size, angle and thickness below normal (Type 2)

Ideal case (Type 3) with normal cartilage size, angle, and thickness when the nose skin is thick

If the skin thickness of the nose is thick, cartilage size, angle, thickness less than normal weak case (Type 4),

A case where the cartilage bleeding is inherently severe (Type 5) when the nose skin is thick

If the thickness of the nose skin is thick, cartilage is classified as a case (Type 6) that is inherently weak in thickness.

Nose-beam surgical methods are classified by shape, and through the five types of surgical methods that can be expected to improve the shape of the tip of the nose and reduce the thickness, finally, the improvement that can be expected with nose molding .

As shown in Figure 9, through the nasal morphological classification is carried out up to three times nasal cartilage rearrangement, according to the thickness of the nose skin, the thickness of the SMAS tissue and the like to proceed to remove the soft tissue in the nose.

In addition, if you want to improve the height of the tip of the nose, it is a plastic surgery to improve the height of the tip of the nose through the method of autologous cartilage or dermis graft.

As shown in FIG. 10, the specialized technology of the nose beam can expect a reduction effect of the skin layer under the nose while maintaining the non-invasive surgical method without the nasal incision. In terms of nose surgery, it is a unique surgical method.

Conventional rhinoplasty can be expected in that it is possible to expect a degree of improvement that can be recommended for rhinoplasty in cases that were difficult to apply in surgery aimed at reducing the thickness and volume of the nose, such as bokko and bulbous nose. I would argue for the specialty of the lesson.

FIG. 11 is a real picture of a noseball type classification of a nosewing of the present invention, FIG. 12 is a real picture showing a method of applying a nosewing of the present invention, and FIG. 13 is a nose beam of the present invention. Nose-beam) and Nose Wing are taken in parallel. Finally, Figure 14 is a real picture of the lower point of the scope of the application of the nosewing (Nosewing) of the present invention.

As shown in Figure 11, Nosewing (Nosewing) is a non-incisional nostril reduction (nostril reduction) plastic surgery, which can be expected to reduce the effect of the nose wing area that can be pointed out as a limitation of the existing non-incisional cheek reduction It's proprietary non-incisional cheek reduction method. Nosewing Nostril Reduction includes multi-slot knot method, mattress knot method, 3-D cubic cotball reduction, and the operation information at the bottom of the It also contains information about it.

Nosewing and nostril reduction is a nostril-typed reduction that reduces damage to normal tissues and reduces the burden of recovery periods through the classification of the nostrils.

As shown in FIG. 12, the nosewing non-incisional cheek reduction (nose wing reduction) surgery is performed by using a multi-stage knotting method, a mattress knotting method, and a 3-D cubic nostril reduction method. , Nostril reduction, commonly referred to as a nostril incision and minimal ablation.

As shown in FIGS. 13 and 14, as a nosewing (Nosewing) specialized technology, the non-incisional cheek reduction (nose wings reduction) included in the nosewing, the unique surgical method of the present application (material application method, knot application) Method) is the key to specialization.

The characteristic of the multi-stage knot method is that the loosening of the applied material can be attributed to the short retention period of the non-incisional cheek reduction. Multi-knotted knot is a method of using a unique knot method to overcome the short retention period of non-incisional cheek reduction due to the loosening of the material, and a significant increase in retention period can be expected.

As a characteristic of the metric knot method, it can be pointed out as a limitation of the existing non-incisional cheek reduction (notal wing reduction), it is difficult to expect a great effect in the nostril shape other than the wide-footed nostril shape that can be identified in the nostril classification Can point out. The special feature of the matrix knot method is that it is a non-incisional cheek reduction (nose reduction) applicable to a wide and thick nose shape as a whole.

As a characteristic of 3-D cubic nostril reduction, it is possible to reduce the thickness of the nostril, which overcomes the limitations of the non-incision nostril reduction, which is difficult to apply to the nostril with a thickness of more than the normal range. I claim to be a skill.

Although the preferred embodiments of the present invention have been illustrated and described above, the present invention is not limited to the above-described embodiments, and the present invention is not limited to the above-described embodiments without departing from the spirit of the present invention as claimed in the claims. Various modifications can be made by those skilled in the art, and such modifications are intended to fall within the scope of the appended claims.

100: Retractor
110: nose pull hook hanger
120: Spacing screw
130: retractor hanger
140: position adjustment connector
150: position adjustment connector
160: retractor tongs

Claims (2)

As a retractor required for non-incision nose tip and nose reduction (nostril) shrink molding, the retractor 100 is formed with the nose puller adjusting base 110 in both sides length, the hinge binding portion 112 in the center portion thereof; Formed and coupled to both sides of the pull hook hanger 110 to the hinge point 113, the lower pull hook 111 is formed side by side left and right pull hooks (111a) (111b),
In addition, the nose pull hook adjusting unit 110 is formed on the upper portion of the gap adjusting screw portion 120 to adjust the width of the nose hook 111 around the hinge point 113, but the gap adjusting screw portion 120 is Spacing adjustment screw 121a is connected to the connecting portion 123a of the pulley hook adjusting unit 110b by a hinge, and the space adjusting screw 121a passed through the gap adjusting screw through hole 123b of the pulley hook adjusting unit 110a. The gap adjusting nut 121b is inserted into the
In addition, the retractor hanger 130, which is connected to the hinge point 113 in the middle of both sides of the pulley hanger adjuster 110 is formed of a rod, the hinge point 113 of the pulley hanger adjuster 110 Position adjustment connector 140 is formed in the rear in the rear, the retractor hanger 130 is fitted into the coupling hole 145 of the position adjustment connector 140 is fixed and coupled by the position adjustment connector fixing screw 143 And, the nose height adjustment support portion 141a (141b) formed by forming the nose height adjustment rods (143a, 143b) to the rear left and right of the position adjustment connector 140 is formed, according to the size of the person's nose or height Retractor required for non-incision nose tip and nose blade (nostril) shrink molding, characterized in that the adjustable
According to claim 1, Retractor hanger 130 is required for non-incision nose tip molding and nose blade (nostril) shrink molding, characterized in that the position adjustment connector 150 is fitted into the coupling hole 153. Tractor

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