KR20200029959A - Mouding Press Manufacturing Device for Medical Suture Manufacturing Equipment - Google Patents

Abstract

The present invention relates to a technology for processing a medical suture used for a skincare procedure, and more specifically, to a molding press mold processing device for medical suture manufacturing equipment which mold presses a suture yarn while twisting the continuously supplied suture yarn to mold a desired shape on a cross section thereof and then processes an outer peripheral surface thereof. The present invention relates to medical suture manufacturing equipment which comprises: a supply unit which continuously supplies a suture yarn; a processing unit; and a recovery unit. The processing unit further includes: an adjustment unit which finely adjusts a transfer location of a suture yarn to central portions of upper and lower molds; a rotation unit which twists the suture yarn; and a heating unit which applies heat through the molds. The adjustment unit includes: a base fixed and installed on a frame; a table moved by an operation of an adjustment handle on the base; a flat body fixed to the table; and a guide roller which maintains the suture yarn. The rotation unit includes: a first air chuck which grips and fixes the suture yarn; and a second air chuck which rotates the suture yarn which is fixed by the first air chuck. The heating unit includes: heaters installed on the upper and lower molds, respectively; and a sensor which controls temperatures of the heaters.

Description

Molding press mold processing apparatus in medical stool room manufacturing equipment {Mouding Press Manufacturing Device for Medical Suture Manufacturing Equipment}

The present invention relates to a technique for processing a medical burial chamber used for skin treatment, and more specifically, to mold a mold into a desired cross-sectional shape by twisting a sutured yarn continuously supplied so that the outer peripheral surface can be processed. It relates to a molding press mold processing apparatus in a manufacturing facility for a medical burial room.

Various types of burial rooms (also called sutures, suture ropes, or lifting threads) are used when performing plastic surgery to remove tissue sagging and wrinkles caused by aging, reduction of skin elasticity, trauma, etc. do.

Lifting procedure is a medical technique that pulls up or pulls up stretched skin and tissues of the face, chin, neck, and abdomen using a needle and a burial chamber, and it is not necessary to cut the skin excessively and minimize the occurrence of scars. Because it can, it is getting a lot of attention.

For example, as shown in FIG. 1, a general lifting procedure improves skin at the end of the needle N by penetrating the shed chamber A through the hole of the medical needle N and then penetrating the patient's skin tissue S It is placed under the wrinkles (W) of the patient in need.

Thereafter, the operator presses the vicinity of the epidermis with a finger and presses and holds the needle chamber N discharged through the hole of the needle N located inside the skin tissue S, and the needle N is pressed into the skin tissue S ), Only the buried chamber (A) inserted into the needle (S) remains inside the skin tissue (S) as it is discharged.

In this way, the burial chamber A remaining in the skin tissue S melts and is absorbed into the body when several months have elapsed after the procedure is performed in the body.

At this time, the burial chamber (A) becomes a factor inducing wound irritation in the skin tissue (S), thereby promoting cellular activity such as the production of immune substances such as elastin or collagen to heal the wound, thereby allowing the burial chamber (A) to In the process of healing the body tissue, the volume is created by the immune material generated around the plumbing chamber (A), so that the lifting state that pulls the skin tissue can be maintained continuously.

Therefore, it is possible to obtain various effects such as maintaining sagging skin in a tight state or stretching wrinkles and improving elasticity, as well as improving blood circulation and lymph circulation of the skin and improving skin moisturizing ability.

Usually, it is common to form a number of protrusions or grooves on the outer circumferential surface of the medical burial room to increase the knot or lifting efficiency. For example, when processing the surface of the buried room, a separate incision or cutting process is required in the manufacturing process, and a compression process is performed to form the buried room to a desired thickness or shape.

In connection with the facility for manufacturing such a medical burial room, domestic registered patents No. 1581865 and No. 1742658 have barbed protrusions having orientation and flexibility, or form a plurality of depressions along the longitudinal direction of the suture. A suture manufacturing apparatus and a manufacturing method are known to improve the treatment effect.

In addition, the registered patent No. 1779922 describes a manufacturing apparatus equipped with a press-molding unit including a compression unit arranged radially to compress the yarn in three or more directions, and the registered patent No. 1806150 is provided through a supply unit. It describes a manufacturing apparatus including a preheating unit for heating the yarn to a predetermined temperature and a twist preventing unit for removing the twist by generating tension in the yarn. It describes a manufacturing apparatus capable of removing the outer peripheral surface to a certain depth.

However, as described above, in the prior art, the production time and efficiency are reduced as the projections or grooves formed on the outer circumferential surface of the buried room are cut through the cutting operation, and of course, the strength of the buried room is lowered and the projections are damaged or shaped during the molding process Defects such as non-uniformity and breakage occur.

Moreover, when applied to the human body, the frictional force acting on the skin is small, which implies that the lifting effect is reduced due to a decrease in tensile force.

Registered Patent No. 1581865 (registered on December 24, 2015), Name of invention: Medical suture manufacturing apparatus and suture manufacturing method. Registered Patent No. 1742658 (registered on May 26, 2017), title of invention: Medical suture and its manufacturing apparatus and method. Registered Patent No.1779922 (Registered on Sep. 13, 2017), Name of invention: Medical suture manufacturing apparatus and method for manufacturing medical suture. Registered Patent No. 1806150 (Registration on December 1, 2017), Name of invention: Medical suture manufacturing apparatus and method for manufacturing medical suture. Registered Patent No. 1813509 (Registered on December 22, 2017), Name of invention: Method for manufacturing medical stool room and stool room manufactured thereby.

The present invention is to solve the conventional problems as described above, the object of the present invention is to reduce the outer circumferential surface from the previous method of manufacturing the yard by manually relying on the manual operation, so as to allow mass production at a time by an automated system. It is to make it possible to supply products at a low price because it can be greatly reduced.

Another object of the present invention is to allow the grooves or protrusions formed on the outer circumferential surface of the sutured yarn to be processed by molding or press or cutting using a male and female mold, as well as to cross-section the desired shape by molding press while the sutured yarn is twisted. After forming into a shape, the outer peripheral surface can be processed.

The present invention for achieving this object, the hub mounted on the fixed plate to attach and detach the bobbin wound the suture yarn, and a long roller that guides the sutured yarn drawn out from the bobbin in a certain path, being transported A suture yarn supply unit consisting of a tension roller for imparting tension to the suture yarn, and an acetal roller for guiding the transfer position of the suture yarn from the tension roller; A press machine operating in a vertical direction up and down, and a sealing yarn processing unit consisting of an upper mold mounted on a lower end of the press and a lower mold mounted on a frame; Feeding rollers and pressing rollers for stepwise taking out the finished sewing yarn by a predetermined length, acetal rollers for inducing the transfer position of the sewing yarns from them, tension rollers for imparting tension to the sewing yarns being transferred, In the manufacturing facility of the medical stool room, which consists of a long roller for guiding the sutured yarn conveyed through the tension roller to a predetermined path, and a sutured yarn recovery unit consisting of a winding unit for recovering the sutured yarn from the longus roller, the processing The unit further comprises an adjustment unit for finely adjusting the transfer position of the suture yarn to the center of the upper and lower molds, a rotating unit for twisting the suture yarn, and a heating unit for applying heat by the mold. The unit is fixed to the frame, and the base moves on the base by manipulation of the adjustment handle. It is composed of a table, a flat plate fixed to the table, and a guide roller for holding the suture yarn, and the rotating unit is fixed to the first air chuck and the first air chuck for gripping and fixing the suture yarn. It consists of a second air chuck for rotating the sealing yarn of the, the heating unit is composed of a heater for mounting on each of the upper and lower molds and a sensor for controlling the temperature of the heater.

In addition, the upper mold is made of a binding plate having a fixing groove opened to one side, and a base plate and a core seating plate are respectively disposed on the bottom surface of the binding plate, and at the same time, a groove is formed on the bottom surface of the core mounting plate to form an upper surface with a male blade. A molding core, a pair of first core guides disposed on both sides with the upper molding core interposed therebetween, and a pair of second core guides for accommodating these first core guides are mounted. The core seating plates are respectively disposed on the formed first and second support plates, and at the same time, grooves are formed in the core seating plates, and a lower molding core having a female blade is mounted.

In addition, the rotating unit is composed of a first air chuck for gripping and fixing the suture yarn, and a second air chuck for rotating the suture yarn in a state fixed by the first air chuck. It is constructed by connecting a pulley mounted on the rotating shaft of this motor and a pulley mounted on the second air chuck with a belt, including a forward and reverse rotation motor.

The present invention, by the above-described features, since the entire process up to the supply and final recovery of the suture yarn can be manufactured by an automated facility, as in the past, the outer circumferential surface of the suture yarn has been removed from the method that was dependent on manual labor. Workability can be greatly improved.

In addition, the grooves or protrusions formed on the outer circumferential surface of the sutured yarn can be processed by molding or press or cutting using a male or female mold, and the yarns can be twisted or molded into arbitrary cross-sectional shapes, so that the protrusions are embossed or engraved. Of course, it is possible to produce a buried room of various shapes in planar (2D) or stereoscopic (3D).

In addition, it is possible to significantly reduce the cost compared to the technology of manufacturing the conventional suture yarn, and also to supply the shed room at a lower price as it suppresses the occurrence of defects in the production process.

1 is a schematic configuration diagram showing an example of a generally performed lifting procedure,
Figure 2 is an overall configuration diagram showing the front of the manufacturing facility for medical use in accordance with the present invention,
Figure 3 is a front view showing the side of the supply portion tension is applied to the suture yarn,
Figure 4 is a front view showing the overall configuration of the press for processing the suture yarn,
Figure 5 is an exploded perspective view of Figure 4,
Figure 6a, Figure 6b is an exploded perspective view and assembly cross-sectional view showing the configuration of the upper mold,
Figure 7a, Figure 7b is an exploded perspective view and an assembly cross-sectional view showing the configuration of the lower mold,
8A and 8B are front and top views of a left adjustment unit of a press machine,
9A and 9B are front and top views of a right adjustment unit of a press machine,
10A and 10B are front and top views of a rotating unit for twisting a sutured yarn before processing,
11 is a front view of a mechanism for transporting a processed suture yarn,
12 is a side view of the winding unit for recovering the processed suture yarn,
13A to 13B are views illustrating shapes of processed suture yarns.

Hereinafter, preferred embodiments according to the present invention will be described in more detail with reference to the accompanying drawings, but the specific structures and functions they have are shown as one structural example and are not limited to the embodiments described herein.

In general, medical burial chambers used for skin treatment of the human body use suture yarns that naturally melt and absorb in the body over time, such as PDO (Polydioxanone), PCL (Polycaprolactone), and PLLA (Poly-L-Lactic Acid). You do not have to worry about the side effects caused by foreign substances.

In addition, a suture yarn made of a material such as a copolymer of lactic acid and glycolic acid, a copolymer of poly carprolactone, or the like can also be used.

Therefore, the suture yarn does not need to be removed after being introduced into the body, and after the procedure, there is no scar on the skin and only a little erythema exists, so it does not interfere with daily life, and has various treatment effects and fewer side effects, so dermatology, In plastic surgery, surgery is performed for cosmetic and therapeutic purposes.

In addition, the suture yarn may be manufactured using a bio-absorbable medical polymer. That is, it is also possible to select and use polypropylene, nylon, and mixtures thereof.

2 to 12 is a view for explaining a manufacturing facility of a medical burial room according to the present invention, largely including the supply for providing a suture yarn forming the outer circumferential surface of the suture yarn step by step determined length It can be divided into a processing unit for processing and a recovery unit for winding the finished sewing yarn.

2 and 3, the sealing yarn P before processing is performed is mounted on the hub 12 on the fixing plate 11 constituting the supply part while being wound on the bobbin 10, and the bobbin 10 ), The wound yarn P is wound through the long roller 13 and again wound on the tension roller 14 and the acetal rollers 15a, 15b and transferred.

In the case of the long roller 13, since the sealing yarn P is not usually wound on the bobbin 10, the sealing yarn P is pushed inward along the inclined surface of the long roller, leading to a constant position. can do.

In addition, since the tension roller 14 is always pushed downward by its own load while the suture yarn P is wound, a constant tensile force is applied during the transportation of the suture yarn.

That is, the tension roller 14 is mounted on the front end of the housing 18 assembled to the vertical guide bar 17 mounted on the fixed plate 16 to have fluidity in the up and down direction, and the vertical guide bar 17 ) Are provided on the upper and lower sides of the fixing pieces 19a and 19b to regulate the lifting and lowering positions of the tension roller 14.

In addition, when excessive tension is applied to the sutured yarn P due to a mechanical error, it is also possible to configure the device to be stopped by sensing the sensor. As described above, since a technique for controlling an automatic device using a sensor may employ various known methods, additional descriptions thereof will be omitted.

Subsequently, the suture yarn P is wound around and transferred to the acetal rollers 15a and 15b. At this time, a groove (not shown) is formed in the acetal rollers 15a and 15b to form a groove (not shown) at the center of the transfer of the suture yarn P. It is possible to lead to a central position so as not to deviate.

As shown in Figure 4 to 10b, the processing unit for forming the suture yarn (P), the press machine 20 operating in the up and down direction and a plurality of posts (21) through the lower end of the press 20 The first and second plates 22a and 22b are installed at predetermined intervals, and the upper mold 30 and slots 24a detached and attached to the chuck 23 mounted at the lower end of the press 20 It is composed of a lower mold 40 fixedly installed on the formed second plate 22b.

The press machine 20, the chuck 23 is operated by a driving force of a servo motor (not shown) for a set distance in the vertical direction, and the upper and lower molds 30 and 40 are combined on the outer circumferential surface of the sealing yarn P. In the process of being combined, it can be processed into various shapes.

That is, it is possible to freely process grooves, protrusions, and visible shapes on the outer circumferential surface of the sealing yarn P by appropriately selecting from a molding or pressing method using a pair of male and female molds. Servo motors, screws or timing belts, etc. installed inside the press machine 20 can use a known configuration used in general automation equipment, and thus detailed description thereof will be omitted.

6A and 6B, the upper mold 30 includes a binding plate 32 having a fixing groove 31 opened to one side, and the base plate 33 and the core are provided on the bottom surface of the binding plate 32. The seating plates 34 are respectively disposed. A groove 35 is formed on the bottom surface of the core seating plate 34 to form an upper forming core 36 having a male blade, and a pair of first core guides disposed on both sides with the upper forming core 36 interposed therebetween. (37a, 37b) and a pair of second core guides 38a, 38b for accommodating these first core guides 37a, 37b are mounted.

The core seating plate 34 includes a plurality of dowel pins 39 to form one body by fastening members (not shown).

7A and 7B, the lower mold 40 is provided with a second support plate 42b and a core seating plate 43, respectively, on the first support plate 42a in which the respective slots 41a and 41b are formed. It is made, the core seating plate 43 is formed with a groove 44, the lower forming core 45 having a female blade is disposed.

In addition, the core seating plate 43 includes a plurality of guide pins 46 and dowel pins 47 to form one body by fastening members (not shown).

On the other hand, the processing unit is rotated to twist the adjustment units (50A, 50B) for finely adjusting the transfer position of the sealing yarn (P) to the center of the upper and lower molds (30, 40), and the sealing yarn (P) The unit 60 and a heating unit 70 for applying heat by a mold are further included.

8A to 9B, the adjusting units 50A and 50B are fixed to the base 51 installed on the frame, and the table 53 moved by the operation of the adjusting handle 52 on the base 51 And, it is mounted on one side of the flat body 54 fixed to the table 53, and comprises a guide roller 55 for holding the sealing yarn (P).

In addition, a fixing block 56 is provided on one side of the right adjustment unit 50B, and a guide groove 57a is formed at the center of the upper end of the fixing block 56. Accordingly, the position can be finely adjusted to coincide with the centers of the upper and lower molds 30 and 40 according to the thickness of the sealing yarn P to be processed, so that more precise processing can be performed.

10A and 10B, the rotating unit 60 is installed to rotate and twist the stitching yarn P before the processing of the stitching yarn P by the combined molding of the upper and lower molds 30 and 40. . The rotating unit 60 is for holding and rotating the first air chuck 61a for holding and fixing the suture yarn P and the suture yarn P fixed by the first air chuck 61a. It consists of a second air chuck (61b).

That is, the first air chuck (61a) is installed on the base 51 constituting one side of the control unit (50A) to grip and secure the sealing yarn (P) as the jaw expands and contracts by air supply, the The second air chuck 61b is disposed adjacent to the other control unit 50B to grip the sealing yarn P.

In the case of the second air chuck 61b, the pulley 63a mounted on the rotating shaft of this motor 62 and the pulley mounted on the second air chuck 61b, including the motor 62 that rotates forward and backward ( 63b) is connected to the belt 64 is configured.

Accordingly, by holding one side of the suture yarn (P) and rotating the other, it is possible to maintain the twisted shape of the suture yarn (P) 360 ° as well as 2-3 times, and the upper mold 30 descends at this time. In the process of being molded into the lower mold 40, the outer peripheral surface of the sutured yarn P may be processed.

Subsequently, the first and second air chucks 61a and 61b release the gripping state of the sutured yarn P so that the sutured yarn P can be moved toward the recovery part. The first and second air chucks 61a and 61b are devices for attaching or removing a work piece by using a compressed air to open and close the chuck, and thus the detailed configuration or operation thereof is omitted. do.

In addition, the heating unit 70 is composed of a heater 71 mounted on the upper and lower molds 30 and 40, respectively, and a sensor 72 for controlling the temperature of the heater 71, and usually molds 60 It is most preferable to heat to about -70 ° C.

Accordingly, in the process of the upper and lower molds 30 and 40 being molded, the shape of the sealing yarn P can be molded into an ellipsoid according to the shape of the molding core, or can be molded into any other shape. On the outer circumferential surface of (P), grooves, protrusions, and visible shapes can be variously formed in a flat (2D) or three-dimensional (3D) as well as embossed or engraved.

In addition, a blower 25 for processing scraps generated in the process of forming the sealing yarn P by the upper and lower molds 30 and 40 is provided on the bottom surface of the processing unit. Scrap can be sucked and collected separately by the operation of the blower 25.

On the other hand, the sutured yarn P processed on the outer circumferential surface is transferred to the recovery section. The recovery unit may withdraw the sutured yarn P, which has been processed by the upper and lower molds 30 and 40, stepwise.

That is, as shown in FIG. 11, a feeding roller 82A is installed on the fixed plate 81 to rotate by a value set by a servo motor (not shown), and a cylinder 83 is provided on the upper side of the feeding roller 82A. The push rollers 82B that move up and down during operation are arranged on the same center line through the bracket 84.

Therefore, the sewing yarn P, which has been processed, is compressed by the pressing roller 82B that moves up and down in the vertical direction by the operation of the cylinder 83 while mounted on the feeding roller 82A, and this feeding roller (82A) is rotated by the set value of the servo motor to transport the suture yarn (P) by a predetermined length.

In addition, the tension roller 86 for imparting tension to the acetal rollers 85a, 85b, 85c and the suture yarn P at the adjacent position of the feeding roller 82, and transferred through the tension roller 86 Janggu roller 87 is installed to guide the sutured yarn P into a predetermined path.

In the case of the tension roller 86, the housing 88b is assembled to the vertical guide bar 88a mounted on the fixing plate 81, as well as installed on the side to which the suture yarn P is supplied, and at the same time, the front end of the housing 88b It is equipped with and has fluidity in the up and down direction. Fixing pieces (89a, 89b) are installed on the upper and lower sides of the vertical guide bar (88a) to regulate the up and down position of the tension roller (86).

Even in this case, when excessive tension is applied to the sutured yarn P due to a mechanical error, it is possible to configure the device to be stopped by sensing the sensor.

By this configuration, the finished processing yarn (P) maintains a constant tensile force through each acetal roller (85a, 85b, 85c) and tension roller (86) and long roller (87) from the feeding roller (82A). In the state, it is transferred to the winding unit 90 side.

As shown in FIG. 12, the winding unit 90 includes a bobbin 91 in which the suture yarn P is wound, and a motor 92 for rotating the bobbin 91 at low speed, and these bobbins 91 And the motor 92 is attached to the housing 93a and is coupled to a screw shaft 95a that rotates by the operation of the forward and reverse motor 94 at the same time.

That is, as the body 93b integrally formed on the bottom surface of the housing 93a is bound to the screw shaft 95a and the horizontal guide bars 95b formed on both sides of the screw shaft 95a, the forward and reverse motor 94 When the screw shaft (95a) is rotated during operation, the housing (93a) and the body (93b) are stably transferred before and after.

Accordingly, the bobbin 91, the housing 93a is gradually reciprocated forward and backward by rotation of the forward and reverse motor 94, so that the sealing yarn P is evenly wound over the entire surface of the bobbin 91. will be.

13A to 13B are views illustrating the shape of the sutured yarn P that has been processed by the mold processing apparatus as described above.

That is, as described above, according to the shape of the forming core mounted on the upper and lower molds 30 and 40, the cross-sectional shape of the sealing yarn P can be arbitrarily molded, and the sealing yarn corresponding to the male and female blades ( Grooves a1, a2, a3 may be formed on the surface of P), or protrusions b1, b2, b3 or protrusions c1, c2 of various shapes may be formed.

As described above, according to the mold processing apparatus in the manufacturing facility for a medical burial room according to the present invention, since the supply and final recovery process of the sealing yarn can be manufactured by an automated system, the outer circumferential surface of the sealing yarn as before has been produced. The workability can be greatly improved by breaking away from the method that relied on manual work.

In addition, the grooves or protrusions formed on the outer circumferential surface of the sutured yarn can be processed by molding or press or cutting using a male or female mold, and the yarns can be twisted or molded into arbitrary cross-sectional shapes, so that the protrusions are embossed or engraved. Of course, it is possible to produce a buried room of various shapes in planar (2D) or stereoscopic (3D).

In addition, it is possible to significantly reduce the cost compared to the previous manufacturing technology, and to suppress the occurrence of defects in the production process, thereby providing a cheaper price.

The technical problem of the present invention is achieved by the technical configuration as described above, although the present invention is not limited to the present invention by a person having ordinary knowledge in the technical field to which the present invention pertains, although it has been described with limited embodiments and drawings. Of course, various modifications and variations are possible within the technical scope of and within the scope of the equality of the claims to be described below.

10: bobbin 11: fixed plate
12: hub 13: Janggu roller
14: tension roller 15a, 15b: acetal roller
16: Fixing plate 17: Vertical guide bar
18: housing 19a, 19b: fixed piece
20: press machine 21: post
22a: first plate 22b: second plate
23: Chuck 24a: Slot
25: blower 30: upper mold
31: fixing groove 32: binding plate
33: base plate 34: core seating plate
35: groove 36: upper forming core
37a, 37b: First core guide 38a, 38b: Second core guide
39: dowel pin 40: lower mold
41a, 41b: slot 42a: first base plate
42b: Second support plate 43: Core seating plate
44: groove 45: lower forming core
46: guide pin 47: dowel pin
50A, 50B: Control unit 51: Base
52: adjustment handle 53: table
54: flat plate 55: guide roller
56: fixed block 57a: guide groove
60: rotating unit 61a: first air chuck
61b: second air chuck 62: motor
63a, 63b: Pulley 64: Belt
70: heating unit 71: heater
72: sensor 81: fixed plate
82A: Feeding roller 82B: Pressing roller
83: cylinder 84: bracket
85a, 85b, 85c: acetal roller 86: tension roller
87: Janggu roller 88a: Vertical guide bar
88b: housing 89a, 89b: fixed piece
90: winding unit 91: bobbin
92: motor 93a: housing
93b: body 94: forward and reverse motor
95a: screw shaft 95b: horizontal guide bar

Claims (3)

The hub 12 mounted on the fixing plate 11 so that the suture yarn can be detached and attached to the wound bobbin 10, and a long roller 13 guiding the suture yarn drawn out from the bobbin in a certain path, A suture yarn supply unit consisting of a tension roller (14) for imparting tension to the suture yarn to be transferred, and acetal rollers (15a, 15b) for inducing the transfer position of the suture yarn from the tension roller;
A sealing yarn processing unit consisting of a press machine 20 operating in the vertical direction up and down, an upper mold 30 mounted on a lower end of the press machine, and a lower mold 40 mounted on a frame;
Feeding rollers (82A) and pressing rollers (82B) for withdrawing the finished sewing yarn step by step by a predetermined length, and acetal rollers (85a to 85c) for inducing the transfer position of the sealing yarns from them, and the suture being transferred A tension roller (86) for imparting tension to the yarn, a long roller (87) for guiding the sutured yarn conveyed through the tension roller to a certain path, and a winding unit (3) for recovering the sutured yarn from the long roller In the manufacturing facility of the medical burial chamber consisting of a suture yarn recovery unit consisting of 90),
The processing unit is provided by an adjustment unit (50A, 50B) for finely adjusting the transfer position of the sealing yarn to the center of the upper and lower molds (30, 40), and a rotating unit (60) and a mold for twisting the sealing yarn. It further comprises a heating unit 70 for applying heat,
The adjustment unit (50A, 50B) is a base 51 fixed to the frame, a table 53 moved by manipulation of the adjustment handle 52 on the base, and a flat body 54 fixed to the table And a guide roller 55 for maintaining the suture yarn,
The rotating unit 60 is composed of a first air chuck 61a for gripping and fixing the suture yarn, and a second air chuck 61b for rotating the suture yarn in a state fixed by the first air chuck. ,
The heating unit 70 comprises a heater 71 mounted on upper and lower molds, respectively, and a sensor 72 for controlling the temperature of the heater. Processing equipment. According to claim 1, The upper mold 30 is made of a binding plate (32) having a fixing groove opened to one side, and a base plate (33) and a core seating plate (34) are disposed on the bottom surface of the binding plate, respectively. At the same time, a groove 35 is formed on the bottom surface of the core seating plate to form an upper forming core 36 having a male blade, and a pair of first core guides 37a, 37b disposed on both sides with the upper forming core interposed therebetween. Wow, a pair of second core guides 38a and 38b for accommodating these first core guides is mounted, and the lower mold 40 has a slotted first support plate 42a and a second support plate 42b. At the same time that the core seating plates 43 are disposed on the core, the grooves 44 are formed on the core seating plates, and the lower molding core 45 having a female blade is mounted in the medical shed manufacturing facility. Molding press mold processing equipment in. According to claim 1, The rotation unit 60 is composed of a first air chuck (61a) and a second air chuck (61b), the second air chuck (61b) is a motor that rotates forward and reverse ( 62), a pulley (63a) mounted on the rotating shaft of the motor (62) and a pulley (63b) mounted on the second air chuck (61b) is configured by connecting the belt 64 with a medical mating room manufacturing facility. Molding press mold processing apparatus in

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