KR102201848B1 - Bio-implantable material, processing apparatus and processing method for bio-implantable material - Google Patents

Abstract

The present invention relates to a bioimplantable material, a bioimplantable material processing device, and a method therefor. More specifically, after a lifting thread and a nose thread, which are bioimplantable materials, are inserted into skin, the movement of the threads is prevented while being pulled upward. As a groove pulls up a skin tissue and fixes the same to an upper tissue, the sagging skin tissue can be towed for a long time. Also, because the regenerated tissue is coupled to a pierced part, a so-called vice-lifting thread for maintaining a lifting duration for a long time can be provided. According to the present invention, in a state in which a lifting thread and a nose thread corresponding to bioimplantable materials are inserted into skin and are pulled upwards, the movement of the threads is prevented. As a groove pulls up a skin tissue and fixes the same to an upper tissue, the sagging skin tissue can be towed for a long time. Also, because the regenerated tissue is coupled to a pierced part, a so-called vice-lifting thread for maintaining a lifting duration for a long time can be provided.

Description

Bio-implantable material, bio-implantable material processing device and its method {BIO-IMPLANTABLE MATERIAL, PROCESSING APPARATUS AND PROCESSING METHOD FOR BIO-IMPLANTABLE MATERIAL}

The present invention relates to a bio-implantable material, a bio-implantable material processing apparatus and a method thereof, and more specifically, in a state in which a lifting thread and a nasal seal corresponding to the bio-implantable material are inserted into the skin and then pulled upward. It prevents the movement of the thread, and the groove pulls up the skin tissue and fixes it to the upper tissue, so that it not only pulls the sagging skin tissue for a long time, but also maintains the lifting duration for a long time because the regenerated tissue is bonded to the penetrating part. The state relates to a biotransplantable material, a biotransplantable material processing apparatus, and a method for providing a so-called viselifting thread.

Surgical sutures, particularly sutures used in plastic surgery, play a role in enhancing the effect of plastic surgery.In particular, in wrinkle removal plastic surgery, the suture itself securely fixes the skin tissue due to the large number of cogs protruding from the outer circumferential surface of the suture. Since it has a function of maintaining and pulling (lifting function), wrinkle removal procedures are becoming easier, and accordingly, a number of technologies for manufacturing sutures having various types of cog shapes have been developed and proposed for plastic surgery sutures. There is a situation, and technologies for devices and procedures for implanting such plastic surgery sutures into the skin have been developed and proposed.

For example, Korean Patent Application No. 10-2015-0137650 (a skin treatment tool for inserting a suture and a kit including the same) includes an intubation tube including a through hole in the form of a hollow tube, and a hole in which the intubation tube is fixed. It is a technology related to a skin treatment tool and kit including an acupuncture needle that penetrates the acupuncture tube and forms a ring for inserting a suture at the tip of the acupuncture tube, and a guide thread in which both ends of the thread come out to the rear end of the acupuncture tube. By being inserted into the formed ring, it is possible to use sutures having various thicknesses or shapes without being affected by the thickness of the needle tube, and it is possible to reduce side effects caused by the conventional thick needle tube and increase the effect of skin treatment.

In addition, Korean Patent Application No. 10-2017-0183569 (lifting thread and its manufacturing method) includes the steps of preparing a core thread; Applying tension to the core thread with a predetermined strength; Disposing a mold in which a plurality of cavities for protruding a plurality of protrusions from the core seal is formed in a region around the core seal; Injecting a molten resin into the cavity of the mold and injection molding a plurality of protrusions around the core seal; And separating the mold from the core seal.

In addition, Korean Patent Application No. 10-2016-0030928 (Biodegradable thread for skin lifting and its insertion kit) has an optimal length suitable for lifting in a number of V-shaped unit paths for curved areas, and the tension is about 21 days. Up to about 75 to 85%, and the diameter of about 0.02 to 0.04 mm, the rectangular spines formed by peeling in a uniform rectangle in the longitudinal direction at regular intervals on the surface of the body part are arranged radially and alternately so as not to damage nerves It relates to a technique that makes it suitable for lifting the skin sufficiently.

In addition, Korean Patent Application No. 10-2018-0030718 (lifting seal, lifting seal manufacturing apparatus, and lifting seal manufacturing method) includes a core seal extending from one side to the other to form a length; A body that is stacked on at least a portion of an outer circumferential surface of the core seal and extends in a longitudinal direction of the core seal, and a protrusion including a plurality of protrusions formed on the outer circumferential surface of the main body, and the interface between the core seal and the protrusion includes the By forming a fusion portion of the protrusion, there is provided a lifting seal including a protrusion that does not peel off and has a precise shape while securing a tensile strength capable of withstanding a traction force, an apparatus for manufacturing the lifting seal, and a method for manufacturing the lifting seal.

However, in the case of the above technologies, the lifting thread and the nasal thread, which are biotransplantable materials, are inserted into the skin and then pulled upward, preventing the movement of the thread, and at the same time, the regenerated tissue is combined with the penetrating part, so the lifting continues. There is a limitation in not being able to provide a so-called vise lifting thread that keeps the period for a long time.

Korean Patent Application Application No. 10-2015-0137650 (2015.09.30) "Instrument for insertion surgical thread and kit comprising the same" Korean Patent Application No. 10-2017-0183569 (2017.12.29) "Yarn FOR LIFTING A SKIN AND MANUFACTURING METHOD THEREOF" Korean Patent Application No. 10-2016-0030928 (2016.03.15) "BIODEGRADABLE YARN FOR LIFTING A SKIN AND A INSERT KIT THEREOF" Korean Patent Application No. 10-2018-0030718 (2018.03.16) "Lifting thread, lifting thread manufacturing device and lifting thread manufacturing method (LIFTING THREAD, MANUFACTURING DEVICE OF LIFTING THREAD AND MANUFACTURING METHOD OF LIFTING THREAD)"

The present invention is to solve the above problems, and prevent the movement of the thread in a state where the lifting thread and the nasal thread corresponding to the biotransplantable material are inserted into the skin and then pulled upward, and the groove pulls up the skin tissue. It is to provide a biotransplantable material, a biotransplantable material processing apparatus, and a method for traction of sagging skin tissue for a long time by fixing it to the upper tissue.

In addition, the present invention is to provide a so-called vice-lifting thread that maintains the lifting duration for a long time since the regenerated tissue is bonded to the pierced portion after the lifting thread and the nasal thread corresponding to the biotransplantable material are inserted into the skin. It is to provide a bio-implantable material, a bio-implantable material processing apparatus and a method for the same.

In addition, in the present invention, a program capable of controlling the processing time, interval, and speed of the yarn operates according to the press standard, so that the form of the biotransplantable material can be automatically adjusted according to the input value. It is to provide a mold material, a biotransplantable material processing apparatus and a method thereof.

However, the objects of the present invention are not limited to the above-mentioned objects, and other objects that are not mentioned will be clearly understood by those skilled in the art from the following description.

In order to achieve the above object, a biotransplantable material according to an embodiment of the present invention includes a medical yarn 110; And a horizontal groove 130 that is formed by a press penetrating both sides of the medical yarn 110, thereby traction and fixing the skin tissue upward. It characterized in that it comprises a.

In this case, the present invention, while penetrating the upper and lower portions of the medical yarn 110, the horizontal groove portion 130 is not formed as a side of the vertical perforation hole 120 formed in the central region of the medical yarn 110; It characterized in that it further comprises.

In addition, in the present invention, a new tissue is regenerated between the vertical perforated holes 120, which are perforated spaces, after a certain period of time in a state in which the biotransplantable material 100 is inserted into the skin and then pulled upward.

In addition, in the present invention, the horizontal groove 130 is a triangular groove in which a vertex area of a predetermined shape is cut to serve to traction and fix the skin tissue upward after insertion of the biotransplantable material 100 into the skin, It is characterized in that it is formed in one of a rhombus, a combination of polygons, and other circles.

In addition, in the present invention, the medical yarn 110 is characterized in that it is manufactured by dividing into a component that is decomposed and a component that is not decomposed.

The apparatus and method for processing a bio-implantable material and a bio-implantable material according to an embodiment of the present invention include a lifting thread and a nasal thread corresponding to the bio-implantable material into the skin. It has the effect of preventing sagging skin tissues for a long period of time by preventing them and fixing them on the upper tissues by the grooves pulling them up.

In addition, a bio-implantable material and a bio-implantable material processing apparatus and method according to another embodiment of the present invention include a lifting thread and a nose thread corresponding to the bio-implantable material into the skin and regenerated in the penetrating portion after insertion. Since the tissues are combined, it is possible to provide a so-called vise-lifting seal that maintains the lifting duration for a long time.

In addition, in the apparatus and method for processing a bio-implantable material and a bio-implantable material according to another embodiment of the present invention, a program capable of controlling the processing time, interval, and speed of the yarn operates according to the press standard. By doing so, it has the effect of automatically adjusting the shape of the biotransplantable material according to the input value.

1 is a view showing a bio-implantable material processing apparatus 10 used in a method of processing a bio-implantable material according to an embodiment of the present invention.
2 and 3 are diagrams showing a biotransplantable material 100 according to an embodiment of the present invention.
4 is a view showing a biotransplantable material 100 according to another embodiment of the present invention.

Hereinafter, a detailed description of a preferred embodiment of the present invention will be described with reference to the accompanying drawings. In the following description of the present invention, if it is determined that a detailed description of a related known function or configuration may unnecessarily obscure the subject matter of the present invention, a detailed description thereof will be omitted.

1 is a view showing a bio-implantable material processing apparatus 10 used in a method of processing a bio-implantable material according to an embodiment of the present invention. 2 and 3 are diagrams showing a biotransplantable material 100 according to an embodiment of the present invention. First, referring to FIG. 1, the biotransplantable material processing apparatus 10 includes a punch 11, a first press 12, a second press 13, a rail 14, and a control unit 15. It includes a punch 11, the first press 12, the second press 13 is directed to the top of the rail 14 installed to fix the medical yarn 110 to serve as a guide to prevent derailment. A crimp (14a) is formed at the front end of the punch (11), between the punch (11) and the first press (12), between the first press (12) and the second press (13), and at the rear end of the second press (13) Can be.

Through this configuration, the bio-implantable material processing apparatus 10 may manufacture a lifting thread and a nasal thread from the bio-implantable material 100 as shown in FIGS. 2 and 3. That is, FIGS. 2, 3A, 3C, and 3E are lifting seals, and FIGS. 3B and 3D may be manufactured as nose seals used for nose filler procedures.

The punch 11 is a medical yarn that is primarily injected during the forward control in accordance with the set speed value of the control unit 15 for the step motor 10a formed at the rear end of the crimp 14a formed at the rear end of the second press 13 This is a mold for adjusting the diameter and width of 110), and the diameter and width of the medical yarn 110 can be adjusted according to the control by the control unit 15.

The inside of the body constituting the punch 11 includes a heating wire, and the punch 11 has a pre-designed shape and a horizontal axis and a vertical axis pressing unit for adjusting the diameter and width of the medical yarn 110, or in a preset diameter and width. The corresponding input part may be formed inside the body of the punch 11. Here, when formed in the form of an input part, the heating wire is preferably formed at the front end of the input part inside the body of the punch 11, but when formed with the horizontal and vertical axis pressing parts, the heating wire is formed on the surface of the pressing part of the punch 11 body. It is desirable.

When the first press 12 is input according to the control of the step motor 10a by the control unit 15 for the medical yarn 110 adjusted to a preset diameter and width by the punch 11, a preset At intervals, the vertical perforation holes 120 may be sequentially perforated one by one at a preset time interval according to the direction of progress, or may be sequentially perforated by a preset number at the same time. Here, the perforation method may be performed by an upward method, a downward method, or two upper and lower press devices for the column-shaped mold press end.

In the second press 13, a plurality of upper and lower embossed mold press ends may be arranged in a row in each body above and below the second press 13.

Accordingly, the control unit 15 is a rail between the first press 12 and the second press 13 for the medical yarn 110 for which the vertical perforation hole 120 is formed by the first press 12 (14) After performing image recognition of the first vertical perforation hole 120 recognized by the infrared light emitting end and the light receiving end inside the crimp 14a formed at the top, from the time when the image is recognized, the second press 13 In a state in which a plurality of upper and lower embossed mold press ends for medical yarn 110 passing through the center of the upper body of the upper body 13 are arranged in a row, the embossed mold press end, the infrared light emitting end, and the light-receiving end at the last passing position The upper and lower embossed mold presses of the second press 13 according to the time value of dividing the distance information from the stepped crimp 14a into horizontal speed information according to the control of the step motor 10a. By performing the control on the end, it is possible to form the horizontal groove portion 130 according to the number of the upper and lower embossed mold press end of the second press (13).

Thereafter, in the same manner, the controller 15 first forms a set of horizontal grooves 130 using the second press 13, and then the number of sets of the formed horizontal grooves 130 (n, n is a natural number of 2 or more, In Fig. 1, image recognition for the n+1th vertical perforation hole 120 corresponding to 3) after the crimp formed on the top of the rail 14 between the first press 12 and the second press 13 ( 14a) Medical yarn 110 passing through the center of the body on the second press 13 among the bodies on the second press 13 from the time when the image is recognized when it is recognized by the action of the infrared light emitting end and the light receiving end therein Control the step motor 10a to control the distance information from the embossed mold press end and the infrared light emitting end and the light receiving end formed at the last position in a state in which a plurality of upper and lower embossed mold press ends are arranged in a row. By controlling the upper and lower embossed mold press ends of the second press 13 according to the time value for performing the dividing with horizontal speed information according to, the upper and lower embossed mold press ends of the second press 13 The formation of the horizontal grooves 130 according to the number of can be controlled to be performed by the length of the medical yarn 110 to be manufactured sequentially.

The control unit 15 winds in a roll form on a winding machine formed at the rear end of the step motor 10a for the medical yarn 110 processed with the horizontal groove 130 by the second press 13 ) To be finished.

On the other hand, the area between the horizontal grooves 130 of the medical yarn 110 forms a horizontal cog 140, and according to the shape of the upper and lower embossed mold press ends of the second press 13, the horizontal groove 130 and the horizontal cog The shape of 140 is determined, and the horizontal groove 130 as shown in Figs. 2 and 3A to 3F is a combination of a triangular groove, a rhombus, and a polygon in which the vertex area is cut, and the spacing and size of other circles, etc. It can be processed in shape.

In addition, the control unit 15 of the bio-implantable material processing device 10 is a bio-insertion processing machine and can adjust the length of the material that can be used as a single finished product as desired, and the finished product for bio-implantation material is left and right around the center. Cog, circular, and triangular grooves are processed, and one product can be used within the range of 20 to 600mm. For example, 20mm, 50mm, 100mm, 200mm can be processed by determining the desired length.

Next, referring to FIG. 2, the bio-implantable material 100 manufactured by the bio-implantable material processing apparatus 10 of FIG. 1 is a medical yarn 110, a vertical perforation hole 120, and a horizontal groove 130. ), may include a horizontal cog 140.

Here, the horizontal groove 130 is formed by a press penetrating both sides of the medical yarn 110, so that it may serve to traction and fix the skin tissue upward.

Meanwhile, a vertical perforation hole 120 is formed in the central region of the medical yarn 110 in which the horizontal groove 130 is not formed as a side while penetrating the upper and lower portions of the medical yarn 110, so that a biotransplantable material ( After a certain period of time in the state that 100) is pulled upward after insertion, new tissue may be regenerated between the vertical perforated holes 120, which are perforated spaces.

That is, after the biotransplantable material 100 is inserted into the skin, the triangular horizontal groove 130 serves to traction and fix the skin tissue upward, and after a certain period of time in the state pulled upward, This is the principle that new tissue is regenerated between the vertical perforated holes 120, which are spaces. This function prevents the movement of the biotransplantable material 100, and the triangular groove 110 pulls up the skin tissue and fixes it to the upper tissue, thereby pulling the sagging skin tissue.

In addition, since the regenerated tissue is coupled to the vertical perforation hole 120, which is a penetrating part, it is a so-called vice-lifting thread that maintains the lifting duration for a long time.

On the other hand, a program capable of controlling the processing time, interval, and speed of the medical yarn 110 by the control unit 15 has a feature that can be input according to a user's standard. The material for insertion into a living body 100 is divided into a degradable component and a non-degradable component, for example, polypropylene (PP), polydioxanon (PDO), polycaprolactone (PCL), poly-glycolic acid (PGA), and polyglycolic acid (PLGA). -lactic-glyolic acid), PLA (poly-L-lactic acid), etc. can be used.

In addition, FIG. 4 is a view showing a biotransplantable material 100 according to another embodiment of the present invention. Referring to Figure 4, using the bio-implantable material processing device 10, the bio-implantable material 100 is 3D with an absorbent suture (polycaprolactone suture) inserted into the muscle according to the structure of the second press 13 It can be formed in a thorn shape in a three-dimensional cog shape.

As described above, in the present specification and drawings, a preferred embodiment of the present invention has been disclosed, and although specific terms are used, this is only used in a general meaning to easily explain the technical content of the present invention and to aid understanding of the invention. , It is not intended to limit the scope of the present invention. In addition to the embodiments disclosed herein, it is apparent to those of ordinary skill in the art that other modified examples based on the technical idea of the present invention may be implemented.

10: biotransplantable material processing device
11: punch 12: first press
13: second press 14: rail
15: control unit 100: biotransplantable material
110: medical yarn 120: vertical perforation hole
130: horizontal groove 140: horizontal cog

Claims (5)

Medical yarn 110; Horizontal grooves 130 that perform a role of fixing the skin tissue after traction upward by forming presses through both sides of the medical yarn 110; And a vertical perforation hole 120 formed in the central region of the medical yarn 110 in which the horizontal groove 130 is not formed as a side while penetrating the upper and lower portions of the medical yarn 110. Including, the new tissue is regenerated between the vertical perforated hole 120, which is a perforated space, after a certain period of time in a state that is pulled upward after the biotransplantable material 100 is inserted into the skin, and the horizontal groove 130 is After the biotransplantable material 100 is inserted into the skin, it is one of a triangular groove, a rhombus, a combination of polygons, and other circles in which a vertex area of a preset shape is cut to serve to traction and fix the skin tissue upward. In the bio-implantable material processing apparatus used in the bio-implantable material processing method for manufacturing the bio-implantable material 100 manufactured by dividing the medical yarn 110 into a degradable component and a non-degradable component,
The diameter of the first input medical yarn 110 and the diameter of the first inputted medical yarn 110 during the forward control according to the set speed value of the control unit 15 for the step motor 10a formed at the rear end of the crimp 14a formed at the rear end of the second press 13 As a mold for adjusting the width, the diameter and width of the medical yarn 110 are adjusted according to the control by the control unit 15,
The inside of the body includes a heating wire, and a horizontal axis and a vertical axis pressing unit for adjusting the diameter and width of the medical yarn 110 in a predesigned form, or an input unit corresponding to a preset diameter and width can be formed inside the body. When formed in a negative shape, the heating wire is formed at the front end of the input part inside the body, or when formed by the horizontal and vertical axis pressing parts, the heating wire is a punch 11 formed on the surface of the pressing part of the body;
When inputting the medical yarn 110 adjusted to a preset diameter and width by the punch 11 according to the control of the step motor 10a by the controller 15, the vertical perforation hole 120 at a preset interval Depending on the direction of progression, one by one at a preset time interval, or one by one at a preset number of times, and at the same time, the punching method is used in an upward method, a downward method, or two press units at the top and bottom of the column-shaped mold press end. A first press 12 performed by;
A second press 13 in which a plurality of upper and lower embossed mold press ends are arranged in a row in each of the upper and lower bodies; And
A crimp formed on the upper end of the rail 14 between the first press 12 and the second press 13 for the medical yarn 110 in which the vertical perforation hole 120 is formed by the first press 12 14a) After performing image recognition of the first vertical perforation hole 120 recognized by the infrared light emitting end and the light receiving end therein, from the time the image is recognized, the second press 13 of the body on the second press 13 ) The upper and lower embossed mold press ends for the medical yarn 110 passing through the center of the upper body are arranged in a row, and the embossed mold press end at the last passing position and the infrared light emitting end and the receiving end are formed from the crimp 14a. By controlling the upper and lower embossed mold press ends of the second press 13 according to the time value of dividing the distance information of the step motor 10a into horizontal speed information according to the control of the step motor 10a, To form a horizontal groove 130 of the biotransplantable material 100 according to the number of upper and lower embossed mold press ends of the second press 13,
After first forming a set of horizontal grooves 130 using the second press 13, the number of sets of horizontal grooves 130 formed (n, n is a natural number of 2 or more, 3 in Figure 1) Image recognition of the n+1th vertical perforation hole 120 is performed at the infrared light emitting end and the light receiving end inside the crimp 14a formed on the upper end of the rail 14 between the first press 12 and the second press 13 In the case of recognition according to the action of the image, the upper and lower embossed mold press ends for the medical yarn 110 passing through the center of the body on the second press 13 among the bodies on the second press 13 are plural. Dividing the distance information from the press end of the embossed mold at the last passing position and the crimp 14a in which the infrared light emitting end and the light receiving end are formed in a row arranged in a row into horizontal speed information according to the control of the step motor 10a ( By controlling the upper and lower embossed mold press ends of the second press 13 according to the time value of dividing), the horizontal groove 130 according to the number of upper and lower embossed mold press ends of the second press 13 is formed. It is controlled to perform the formation by the length of the medical yarn 110 to be manufactured sequentially, and the step motor 10a for the medical yarn 110 processed with the horizontal groove 130 by the second press 13 The fabrication of the biotransplantable material 100 is finished by winding it in a roll form on a winder formed at the rear end,
For the area between the horizontal grooves 130 of the medical yarn 110, the shapes of the horizontal grooves 130 and the horizontal cog 140 are determined according to the shape adjustment of the upper and lower embossed mold press ends of the second press 13, The horizontal groove part 130 performs processing in the form of a press for the combination of a triangular groove, a rhombus, and a polygon in which the vertex area is cut, and other shapes including circular shapes in a press shape. The length of the material that can be used can be adjusted as desired, and the finished product for the bio-insertion material includes a control unit 15 processing the left and right cogs and circular or triangular grooves around the center; Biotransplantable material processing apparatus comprising a. delete delete delete delete

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