KR100573222B1 - Suture Barb Generator - Google Patents

Abstract

The present invention is a device for producing a precise and sophisticated barb in the suture, by using a special barb in the suture with this equipment can be easily sutured after surgery and save time and also the patient of the new concept has the advantage of quickly recovering It is equipment to process suture

This product consists of a thread knob knob that holds the suture with a constant tension of the suture, a thread guide equipped with a ball screw, and a timing gear that moves the thread guide smoothly. With gearbox.

In addition, it consists of a cam box that is needed to generate barbs accurately in the suture, and a bundle of knives that can be mounted together with the cam box to adjust the spacing or depth of the barb while moving up and down. Video microscope with built-in X, Y, Z axis and XY axis scales for checking, monitors for observing images of equipment support and video microscopes that build it all, and everything listed above It consists of attachable tables.

Suture, Barb, Thread Knob, Thread Guide, Knife, Cam Box, Timing Gear, Electromagnetic Clutches

Description

Barb Machine for Suture

1 is a side view of the barb generator according to the present invention

2 is a front view of the barb generator according to the present invention

3 is a cambox knife bundle arrangement according to the present invention

4 is a detailed view of the knife bundle of FIG. 3, illustrating the movement adjustment of the knife

5 is a gear distribution diagram of a gearbox according to the present invention, which illustrates the stoppage of a knife using a timing gear.

6 is a view for explaining the operation of the magnetic clutch without using the timing gear of FIG.

FIG. 7 is a detailed view of the thread catch knob according to the present invention for explaining the thread catching method. FIG.

8 is a view for explaining the rotation or rotation of the knife of the cam box in the virtual road of the cam box according to the present invention

9 is a diagram illustrating the division of the cam according to the present invention when using the timing gear or the movement or rest of the knife bundle of the magnetic clutch.

10 is an explanatory view of the stop fixing after the cam box rotation according to the present invention

Figure 11 is an enlarged photograph of the suture after suture processing according to the present invention

12 is an explanatory diagram of the distance between the blades according to the present invention

※ Explanation of main parts in drawings

1. Threaded knob 2. Thread guide 3. Video microscope bundle 4. Knife bundle 5. Cambox 6. Cam 7. Gear 1. Bevel gear 9. Ballscrew 10. Support (base) 11. Cambox orientation Toggle fixed knob 12. Gearbox 13. Handle 14. Timing gear 15. Gear 2 16. Gear 3 17. Scope y-axis knob 18. Scope x-axis knob 19. Video microscope 20. Scope z-axis knob 21. 1 Knife 22. Knife 2 23. Knife 3 24. Knife 4 25. Bearing 26. Knife Body Piston 27. Knife Body Cylinder 28. Knife Body (Top) Slide Locking Pin 29. Knife Body (Top) 30. Knife Body (upper) adjustment screw area 31. Knife upper and lower adjustment knob 32. Knife body (lower) screw 33. Knife body (lower) 34. Knife body guide 35. Knife 36. Knife fixing knob 37. Knife body slide fixing pin 38. Spring 39. Stone direction pin 40. + pole of current ground bundle 41.-pole of current ground bundle 42.Electromagnetic ground plate 43.Current ground bundle 44.Electromagnetic 45.Gear 46.Bearing 47.Gear 48.Electromagnetic gear cam concentric shaft Retainer 49. Suture 50. Threaded Hole 51. Threaded Ring 52. Threaded Knob Fixing Screw 53. Threaded Knob Body 54. Threaded Ring Holder 55. Threaded Knob Concentric Shaft 56. Cambox Fixed Body 57. Cambox Direction change lock knob 58. Direction change cam box 59. Vertical plane of front view when cam box is stopped 60. Horizontal plane of side view when cam box is stopped 61. Vertical plane of side view when cam box is stopped after rotation

The present invention relates to an apparatus for generating fine barbs in a suture

Until now, the suture has been used to sew, cut, sew, and cut a needle when sutured after surgery, which requires time and advanced medical techniques when suturing difficult structures. It is possible to sew in succession like normal sewing, which is known, saving time and advanced skills, and improving the patient's recovery.

These advantages led to the design of this equipment.

As described above, when manufacturing the suture barb generator, a high precision processing technology is required, and it must be processed with various cutting-edge equipment, and various metal treatment processes are included. The level is a level of semiconductor equipment, which is a fairly difficult process and task. For example, there are various types of sutures (coarse and thin), so the barb may need to be processed up to 10 µm. In addition, sutures are not metals, so they have different elasticities, tensile forces, and restoring forces.

In order to achieve the technical problem of the suture barb generator according to the present invention is composed of a thread-knob knob for holding at least one suture with a constant tension and a knife that can arbitrarily adjust the spacing or depth of the barb It relates to a suture barb generator characterized by.

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

As described above, in order to carry out the object of the present invention, the knife 35 of the selected knife bundle 4 installed in the cam box 5 is sutured to the thread holder knob 1 and the seal guide 2 and the correct spacing. The handle 13 of FIG. 2 is turned and processed by forming a barb with depth.

The depth of the barb of the suture described above is adjusted by the vertical adjustment knob 31 of the knife 35 of FIG. 4 so that a constant distance can be operated when rotating 360 degrees.

For example, the knife body (lower) screw 32 of FIG. 4 is 0.5 mm and the screw 30 of the knife body (top) is 0.75 mm, and the knife body (lower) is rotated when the knife upper and lower adjustment knob 31 is rotated to the right. ) The screw 32 is the left hand screw and the knife body (upper) screw 30 is the forward screw, and the knife upper and lower adjustment knob 31 is raised (0.75mm in 360 degree rotation), and the knife body (lower) 33 is 0.5 mm comes down

Therefore, it is 0.75-0.5 = 0.25mm, so that 0.25mm thread which is not possible with the existing machine tool is formed and fine adjustment is possible, and it is controlled by watching the picture formed on the video microscope 19 monitor.

When the knife 35 of FIG. 4 descends, that is, when the barb is generated deeper in the suture, the knife upper and lower adjustment knob 31 is rotated to the left.

The distance between the sutures is selected from among the knives of FIG. 3, for example, the thickness of the first knife 21 is 0.353 mm, the distance between the knives is 0.5 mm, and the thickness of the second knife 22 is 0.4 mm. The distance between the knives is 0.566 mm, and if the thickness of the knife No. 3.4 (23.24) is 0.6 mm, the distance is 0.848 mm, and 0.2 mm is 0.283 mm. At this time, the knife number is 8 when the knife thickness is 0.353mm, 7 when 0.4mm, 5 when 0.6mm, 14 when 0.2mm, etc. This is the ball screw 9 of FIG. 1 and FIG. Since the ball screw 9 is a lead 16 mm, it means that the ball screw 9 moves at a value per rotation of the handle 13 of FIG. 2, that is, 16 mm when rotated 360 degrees.

Therefore, the knife blade of the knife bundle 4 of FIG. 1 at the time of one rotation of the handle generates barbs on the 16mm suture in four reciprocating motions. The number of knives described above is thus formed. Again, for example, when the knife thickness is 0.353mm, the number of knives is 8, the spacing between the knives is 0.5mm, that is, 0.5mm x 7 = 3.5mm. The distance is 3.5mm. However, the ball screw with 16mm lead moves 4mm when rotated 90 degrees, so when the next barb is formed, the ball screw jumps 0.5mm again to form barbs on the suture.

As described above, the handle 13 of FIG. 2 should be continuously turned and rotated. When the knife of the knife bundle 4 of FIG. 1 generates barbs on the suture, the ball screw 9 stops operation. Should not. This function will be described with reference to FIGS. 5 and 9. Four cams of FIG. 9 are formed, one at 45 degrees. In addition, the gear mountain of the timing gear 14 of FIG. 5 is not formed as a whole, but gear mountains are formed in proportion to the gears 7, 15 and 16 of FIG. For example, the gears 7, 15 and 16 in FIG. 5 are gears with the same number of gears (ie, 1: 1 gears). The gear formed in the timing gear 14 of FIG. 5 is formed of a gear mountain for rotating the first, second and third gears 7, 15 and 16 by 360 degrees when rotating 360 degrees. The part without the gear mountain eventually stops the rotation of the ball screw 9, and the part with the gear mountain rotates the ball screw to move the seal guide 2 of FIG.

At this time, that is, when the thread guide 2 of FIG. 1 moves, the knife of the knife bundle 4 does not operate, and when the thread guide 2 is fixed, that is, the ball screw 9 of FIG. 5 stops rotation. The knife bundle 4 of Fig. Operates to generate barbs in the suture.

In order to create the above-described situation, the mountain of the cam of FIG. 9 and the gear mountain of the timing gear 14 of FIG. 5 must be arranged in coaxial coaxial line.

That is, the cam of FIG. 9, the timing gear 14 of FIG. 5, and the handle 13 of FIG.

FIG. 6 is a modified form of the gear of FIG. 5, that is, a state in which the electromagnet clutch is used without using the timing gear 14, and the gear 45 is different from the timing gear 14 in FIG. All of the mountains are formed, and the gears are formed twice as many as the gears 1, 2 and 3 of FIG. 5, and if the gears of gear 47 of FIG. 6 are 32, the 45 of FIG. 64 gear mountains are formed.

40 and 41 in FIG. 6 are electrodes + and electrode-pole grounds, which are the insides of the current ground bundles 43, the widths and lengths of which are 1/16 of the total diameter 43,44 times.

42 in Fig. 6 is the outer side of the electromagnet 44, and the 42 iso-earth is grounded, and each length or width is 1/16 of the total diameter of 43 and 44, respectively. Accordingly, when the grounding part is grounded, the number 44 becomes the electromagnet and the gear number 45 is pulled together. At this time, everything is transferred to the electromagnet 44 and the coaxial shaft, and the cam, the electromagnet gear, etc. rotate together. However, the current ground bundle 43 is separate from the 48 coaxial gear.

Each 1/16 ground plane is the distance between the ground meets for the first time and the current is cut off, which rotates 1/16 + 1/16 = 1/8, the gear 45 1/8 of a turn. 47 One gear turns a quarter turn

That is, when the handle is rotated 360 degrees, all of the gears below the 47th rotate 360 degrees. Also, the non-grounded part is where the seal guide stops moving, whereby the knife generates barbs in the suture.

When all of these are formed, it will be explained with the figure of FIG. 8 to change the spacing or barb direction of the suture.

The cam box 5 of FIG. 8 is detachable and attachable to the knife bundle of FIG. 3, and can rotate back and forth. When rotating this equipment, the knife bundle is installed as shown in Fig. 21, 22, 23, and 24, and the circular dotted line part of Fig. 3 is in contact with the seal guide 2 of Fig. Loosen the knob of (11), pull the cam box (5) to the left, change the direction, and push it in again, and then lock the knob of the cam box redirection fixing knob (11) to set it.

Replace the knife in this way.

At this time, the knob 11 of FIG. 8 is processed vertically and horizontally at right angles as shown in 59, 60 and 61 of FIG. That is, the cam box 5 may be set to the cam box fixing body 56 of FIG. 8 while rotating by 90 degrees.

FIG. 7 is an imaginary view of the thread holder knob. The suture 49 is inserted into the thread holder hole 50 as shown in the figure, and then the thread holder knob 1 is pulled into the thread holder ring 51. FIG. The thread holder ring 51 is processed to a plastic with good elasticity, and one side is cut as shown in the figure to appropriately hold a thick or thin suture.

The thread knob knob fixing screw 52 serves to fix the thread knob knob concentric shaft 55 when the thread knob knob 1 is pulled. After the end of this action when pushing the suture 49 to push the threaded knob (1) to the left. At this time, the thread holder ring holder 54 catches the thread holder ring 51 so that the suture 49 protrudes out of the thread holder ring holder 54 as shown in the figure, and thus can be smoothly pulled out.

In this state, it is a device that can fix or loosen the thread regardless of the thickness of the suture.

As described above, the barb generator having the same structure can generate barbs freely regardless of the type of suture when the barbs are generated, so it takes less time to suture the surgical site after surgery and can be easily performed. It can help you recover quickly afterwards. This is because if the surgical site is sewn with a barbed suture in one direction during surgery, the suture thread does not fall out because of the barbs in the opposite direction.

Claims (6)

At least one thread holder knob (1) that holds at least one suture with constant tension, and at least one barb that can arbitrarily adjust the spacing or depth of the barb in the suture placed on the thread guide (2) and the thread guide (2) Suture barb generator consisting of more than one knife 35 and at least one gear to drive the knife 35 The suture 49 is inserted into the thread holder hole 50, and then the thread holder knob 1 is pulled to insert the suture 49 into the thread holder ring 51 to easily hold the suture 49. Suture barb generator, characterized in that it has a threaded knob (1) which can be given and released The gear mount of the timing gear 14 is not formed as a whole, but the gear mount is formed in proportion to at least one gear 7 to be interlocked, and the gear formed in the timing gear 14 is 360 degrees. It is formed of a gear mountain that rotates at least one gear at a time of rotation by 360 degrees. The portion without the gear mountain operates the knife 35 while stopping the rotation of the ball screw 9, and the portion with the gear mountain is a ball screw. Suture barb generator characterized in that it has a timing gear 14 to stop the operation of the knife 35 while rotating the seal guide (2) by rotating (9) The gear 45 according to claim 1, wherein the gear peak is formed entirely by using an electromagnet clutch without using the timing gear 14, and the gear 45 has a peak formed twice as much as the at least one gear 47 that interlocks. The pole 40, the electrode-pole 41 ground is formed inside the current ground bundle 43, and the width or length thereof is 1/16 of the total diameter of the current ground bundle 43 or the electromagnet 44, respectively. The ground plate 42 of the electromagnet also has a length or a width of 1/16 of each of the current ground bundle 43 or the entire diameter of the electromagnet 44, so that the electromagnet 44 has the gear 45 when the ground portion is grounded. Suture barb generator, characterized in that it has an electromagnet clutch, in which everything is transmitted to the current ground bundle coaxial with the cam, electromagnet gear, etc. rotating together The method of claim 1, wherein the knife upper and lower adjustment knobs 31 are rotated 360 degrees by varying the pitch between the knife body (lower) screw 32 and the pitch of the screw 30 of the knife body (upper). 35) suture barb generator, characterized in that the control can be controlled to 0.25mm per revolution during the height adjustment control The knife box (4) of the cam box (5) is detachable and attachable, and can be rotated back and forth, thereby replacing the knife while releasing and tightening the knob of the cam box direction change fixing knob (11). Suture barb generator featuring reverber style to replace or replace

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