CN113331891A

CN113331891A - Thread burial soft tissue forceps

Info

Publication number: CN113331891A
Application number: CN202110620327.9A
Authority: CN
Inventors: 吴宏志; 秦永平; 易梅芳; 魏淑娟
Original assignee: Beijing Meishen Xuyanmeila Medical Cosmetology Clinic Co ltd
Current assignee: Beijing Meishen Xuyanmeila Medical Cosmetology Clinic Co ltd
Priority date: 2021-06-03
Filing date: 2021-06-03
Publication date: 2021-09-03

Abstract

The invention relates to the technical field of operating forceps, in particular to a thread-embedding soft tissue forceps, which comprises two tissue forceps arms, wherein the centers of the two tissue forceps arms are connected through a rotating assembly, the front ends of the two tissue forceps arms are uniformly provided with arc-shaped clamping parts, the end parts of the two tissue forceps arms far away from the clamping parts are fixedly welded with support plates, the end parts of the two support plates far away from the tissue forceps arms are fixedly welded with tissue forceps handles, the surfaces of the two clamping parts are fixedly welded with guide tubes for threading, the front ends of the two clamping parts are provided with puncture parts, the joint surfaces of the two puncture parts are obliquely attached to each other, the centers of the two clamping parts and the puncture parts are provided with thread arranging grooves, and the two guide tubes are inserted into the thread arranging grooves. Prevent the internal rust, improved the life of equipment.

Description

Thread burial soft tissue forceps

Technical Field

The invention relates to the technical field of surgical forceps, in particular to a wire burying soft tissue forceps.

Background

The beauty operation is an operation method mainly for beautifying the face of a person or improving certain morphological defects of the body surface of the person, the face of the person is brightened by the operation, tissue forceps, also called rat tooth forceps, are needed when the beauty operation is carried out, the tissue forceps are lighter than vascular forceps for squeezing tissues, so the beauty operation is generally used for clamping soft tissues and are not easy to slip, for example, a cut lesion part is clamped and pulled to facilitate the operation, a gauze pad and subcutaneous tissues at the edge of an incision are clamped to prevent the tissues in the incision from being polluted, and the wound is required to be sewn through a needle and a thread to be beneficial to healing of the wound after the operation is finished.

However, the above solution has the following disadvantages in use: the operation flow of the existing operation is to fix a wound through tissue forceps, then to penetrate a suture line through a suture needle and to suture the operation wound, the suture method is complex to operate, one person is required to hold the wound through the tissue forceps, the other person is required to suture, when a small wound is sutured, because the operation space is small, an operation doctor can have the condition of inconvenient operation, and the operation difficulty is increased, so the invention designs the tissue forceps which can fix the wound and simultaneously wind the suture line around the wound.

Disclosure of Invention

Technical problem to be solved

Aiming at the defects that when the existing cosmetic surgery is used for suturing a small wound, because the operation space is small, an operation doctor can have the condition of inconvenient operation and the difficulty of the surgery is increased, the invention provides the thread burial soft tissue forceps.

(II) technical scheme

In order to achieve the purpose, the invention adopts the technical scheme that:

a wire arrangement groove is formed in the centers of the clamping portion and the puncturing portion, and the guide tubes extend into the wire arrangement groove.

Preferably, the inner walls of the two winding displacement grooves are provided with wire holes integrally.

Preferably, the caliber of the wire guide hole is gradually reduced from one end close to the clamping part to the end far away from the clamping part, and a waterproof layer is arranged on the inner wall of the wire guide hole.

Preferably, the rotating assembly comprises a rotating shaft, a rotating groove and a rotating rod, wherein the rotating groove is formed at the joint of one tissue forceps arm and the other tissue forceps arm.

Preferably, a rotating rod is arranged at the joint of the forceps arms of the other tissue forceps, the rotating rod is movably arranged in the rotating groove, and rotating shafts are arranged on the rotating rod and the rotating groove.

Preferably, toothed plates are fixedly connected to one sides of the two support plates, are equal in size and are mutually symmetrical and meshed with the transverse center line of the support plate.

Compared with the prior art, the invention has the following beneficial effects:

1. the two clamping parts arranged at the front ends of the forceps arms of the tissue forceps are used for clamping wounds, the front ends of the clamping parts are provided with two puncture parts, the front ends of the two puncture parts are provided with sharp pricks which can puncture the skin for suturing, the joint surfaces of the two puncture parts are mutually inclined so as to be convenient for the butt joint of the puncture parts, thereby facilitating the threading, when the flat cable is sutured, firstly, the suture thread is manually penetrated into the guide tube arranged at the top of the clamping part at one end, the flat cable grooves arranged at the clamping parts at one end are the same through the guide tube and the clamping parts, the suture thread is manually extended into the guide tube at one end, then, the suture thread is slowly moved inwards, the suture thread is extended out from the flat cable groove arranged at one end, then, the extended suture thread is manually extended into the other flat cable groove to penetrate out of the other guide tube, so far, the suture thread is fixed on the tissue forceps, then, the tissue forceps are used for clamping the wounds, and then, an operating doctor attaches the suture thread arranged on the two clamping parts, then fix the suture line through the surgical instrument and draw out the tissue forceps gradually, thus twine the suture line on the wound, then knot and suture the wound, solved the operation procedure of present operation can fix the wound through the tissue forceps, then go to pass the suture line through the suture needle and go to suture the operation wound, this kind of suture method is cumbersome to operate, need alone to hold the wound through the tissue forceps, another person carries out the suture, because the operating space is little when suturing less wound, the problem that the operation doctor can have the inconvenient situation of operation, the operation procedure in the operation of the simple and convenient operation doctor, the work load of having reduced the operation, improved the quality of operation when improving operation speed.

2. The inside waterproof layer that is equipped with of winding displacement groove because the winding displacement groove that the clamping part was equipped with, liquid such as blood water, normal saline can flow into winding displacement inslot portion when organizing pincers with regard to the centre gripping wound, and the waterproof layer that is equipped with can prevent that liquid from can making the clear water flow out outside organizing pincers when wasing the pincers of staying of winding displacement inslot portion, prevents inside rust, has improved the life of equipment.

3. In the process of operation, the types of the suture lines are different, so the hardness of the suture lines is different, when the suture lines with higher hardness are buried in the tissue forceps, doctors can manually pass the suture lines onto the guide tubes, the suture lines can be passed inside by the arrangement grooves arranged inside the puncture part, the caliber inside the arranged guide wire holes is gradually reduced, the resistance of the suture lines in the puncture process can be reduced, when the suture lines with softer hardness are punctured, the doctors can manually pass the suture lines into one part from the guide tubes on one side due to the softer hardness when puncturing the suture lines, then the two ends of the puncture part are closed, then the suture lines are fixed through the rotating component, the guide tubes on the other side are connected into the suction pump, then the suture lines are sucked through the air flow generated by the suction pump, and then the suture lines are sutured, the guiding tube arranged can lead the tissue forceps to carry out suture lines with different thread burial hardness, thereby facilitating the operation of the device and improving the practicability of the device.

Drawings

FIG. 1 is a schematic structural view of a thread burial soft tissue forceps according to the invention;

FIG. 2 is a schematic structural view of a puncture part of the thread burial soft tissue forceps of the invention;

FIG. 3 is a schematic structural view of the forceps walls of the tissue forceps of the present invention;

FIG. 4 is an enlarged schematic view of the thread burial soft tissue forceps of the present invention at C in FIG. 3;

FIG. 5 is an enlarged schematic view of the thread burying soft tissue forceps of the present invention at A in FIG. 1;

fig. 6 is an enlarged structural schematic diagram at B in fig. 1 of the thread burying soft tissue forceps of the invention.

In the figure: 1. a rotating assembly; 101. a rotating shaft; 102. rotating the groove; 103. a rotating rod; 2. a tissue forceps arm; 3. a support plate; 301. a toothed plate; 4. a tissue forceps handle; 401. a finger placement groove; 402. anti-skid lines; 5. a wire arrangement groove; 501. a wire guide hole; 502. a waterproof layer; 6. a guide tube; 7. a clamping portion; 8. a puncture part.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Examples

As shown in fig. 1-6, the soft tissue forceps for catgut implantation comprises two tissue forceps arms 2 which are connected through a rotating assembly 1, wherein the front ends of the two tissue forceps arms 2 are provided with arc-shaped clamping parts 7 in an integrated manner, the end parts, far away from the clamping parts 7, of the two tissue forceps arms 2 are respectively welded and fixed with a support plate 3, the end parts, far away from the tissue forceps arms 2, of the two support plates 3 are respectively welded and fixed with a tissue forceps handle 4, guide tubes 6 for threading are welded and fixed on the surfaces of the two clamping parts 7, the front ends of the two clamping parts 7 are provided with puncture parts 8, the joint surfaces of the two puncture parts 8 are obliquely attached to each other, the centers of the two clamping parts 7 and the puncture parts 8 are respectively provided with a catgut-arranging groove 5, and the two guide tubes 6 are respectively extended into the catgut-arranging grooves 5.

According to the technical scheme, the two clamping parts 7 arranged at the front ends of the tissue forceps arms 2 are used for clamping wounds, the front ends of the two puncturing parts 8 arranged at the front ends of the clamping parts 7 are provided with sharp pricks which can puncture the skin for suturing, the joint surfaces of the two puncturing parts 8 are mutually inclined so as to facilitate the mutual butt joint of the puncturing parts 8 and further facilitate threading, the bottom of each tissue forceps arm 2 is fixedly provided with a tissue forceps handle 4 through a support plate 3, when an operator operates the tissue forceps arms 2, the two tissue forceps arms 2 are controlled by placing fingers on the tissue forceps handle 4, the two tissue forceps arms 2 are rotatably connected through a rotating assembly 1, when in the process of suturing, a manual suture line firstly penetrates into a guide pipe 6 arranged at the top of the clamping part 7 at one end, the suture line arranging grooves formed by the guide pipe 6 and the clamping parts 7 are the same, the suture line is manually stretched into the guide pipe 6 at one end, and then the suture line is slowly moved inwards, the suture line is stretched out from the winding displacement groove 5 arranged on the clamping part 7 at one end, then the stretched suture line is manually stretched into the other winding displacement groove 5 and penetrates out of the other guide pipe 6, so far, the suture line is fixed on the tissue forceps, then the tissue forceps are used for clamping wounds, then an operating doctor is used for attaching the suture line arranged on the two clamping parts 7 to the wounds, then the suture line is fixed by an operating instrument and is gradually pulled out of the tissue forceps, so that the suture line is wound on the wounds, and then the wounds are sutured by knotting, thereby solving the problems that the operation process of the existing operation can fix the wounds by the tissue forceps, then the suture line is passed through the suture line by a suture needle and then the operation wounds are sutured, the operation method is complicated in operation, one person is required to clamp the wounds by the tissue forceps, the other person is required to suture, and the operation doctor can have inconvenient conditions due to small operation space when suturing small wounds, the operation flow of the operating doctor in the operation is simplified, the workload of the operation is reduced, the operation speed is increased, and the operation quality is improved.

It should be noted that, wire guide 501 is arranged in two 5 inner wall unifications of winding displacement groove, wire guide 501 is close to 7 one ends of clamping part and reduces to keeping away from 7 one end bore of clamping part gradually, wire guide 501 inner wall is equipped with waterproof layer 502, the inside waterproof layer 502 that is equipped with of winding displacement groove 5, because winding displacement groove 5 that clamping part 7 was equipped with, blood water when organizing pincers with regard to centre gripping wound, liquid such as normal saline can flow into winding displacement groove 5 inside, the waterproof layer 502 that is equipped with can prevent liquid at the inside stop of winding displacement groove 5 and can make the clear water flow out the tissue pincers when wasing the tissue pincers, prevent inside rust, the life of equipment has been improved.

In the embodiment, when an operator operates the tissue forceps, the two tissue forceps arms 2 are controlled by placing fingers on the tissue forceps handle 4, and the two tissue forceps arms 2 are connected in a rotating mode through the rotating assembly 1, so that the practicability of the tissue forceps is improved.

Wherein, the rotating assembly 1 comprises a rotating shaft 101, a rotating groove 102 and a rotating rod 103, wherein the joint of one tissue forceps arm 2 and the other tissue forceps arm 2 is provided with the rotating groove 102: the joint of the other tissue forceps arm 2 is provided with a rotating rod 103, the rotating rod 103 is movably arranged in a rotating groove 102, a rotating assembly 1 of the rotating rod 101 is arranged on the rotating rod 103 and the rotating groove 102 and comprises a rotating shaft 101, a rotating groove 102 and a rotating rod 103, the rotating groove 102 is arranged at the joint of one tissue forceps arm 2 and the other tissue forceps arm 2, the types of the suture lines are different in the operation process, so that the hardness of the suture lines is different, when the suture lines with higher hardness are buried in the tissue forceps, a doctor can manually pass the suture lines on the guide tube 6, the suture lines can be passed through the inside of the puncture part 8 through the wire arrangement groove 5, the caliber inside the wire guide hole 501 is gradually reduced, the resistance of the suture lines in the puncture process can be reduced, when the suture lines with softer hardness are punctured, the doctor can manually puncture the suture lines and encounter difficulties in the puncture process, can wear into partly from the guiding tube 6 of one side with the stylolite, then with 8 both ends closures in puncture portion, then fix through runner assembly 1, insert the aspirator pump with the guiding tube 6 of opposite side again, then attract the stylolite through the produced air current of aspirator pump to sew up, guiding tube 6 that is equipped with can make tissue forceps carry out the stylolite that the buried line hardness is different, made things convenient for the operation of equipment, improved the practicality of equipment.

In the time of specific design, both sides of two extension boards 3 all fixedly connected with pinion rack 301, two pinion rack 301 size equals and with the mutual symmetry of extension board 3 horizontal central line and meshing. In the present application, during the operation, the types of the suture lines are different, so the hardness of the suture lines is different, when the suture line with higher hardness is buried in the tissue forceps, the physician can manually pass the suture line through the guide tube 6, the suture line arranging groove 5 arranged inside the puncture part 8 can pass the suture line inside, the caliber inside the guide wire hole 501 is gradually reduced, the resistance of the suture line during the puncture process can be reduced, when the suture line with softer hardness is punctured, the physician can manually pass the suture line through the guide tube 6 on one side to penetrate into one part, then close the two ends of the puncture part 8, and then fix the suture line through the rotating assembly 1.

The working principle of the thread burial soft tissue forceps is as follows: the two clamping parts 7 arranged at the front ends of the tissue forceps arms 2 are used for clamping wounds, the front ends of the clamping parts 7 are provided with two puncture parts 8, the front ends of the two puncture parts 8 are provided with sharp pricks which can puncture the skin for suturing, the joint surfaces of the two puncture parts 8 are mutually inclined so as to facilitate the mutual butt joint of the puncture parts 8 and further facilitate the threading, the bottom of each tissue forceps arm 2 is fixedly provided with a tissue forceps handle 4 through a support plate 3, when an operator operates the tissue forceps handle 4, the two tissue forceps arms 2 are controlled by placing fingers on the tissue forceps handle 4, the two tissue forceps arms 2 are rotationally connected through a rotating assembly 1, the rotation of the two tissue forceps arms 2 can be limited through the rotating assembly 1, when the flat cable is sutured, the flat cable firstly manually penetrates through a guide tube 6 arranged at the top of the clamping part 7 at one end, the flat cable arranging grooves formed by the guide tube 6 and the clamping parts 7 are the same, and the flat cable is manually inserted from the guide tube 6 at one end, then the suture line is slowly moved inwards, the suture line is extended out from the winding displacement groove 5 formed in the clamping part 7 at one end, then the extended suture line is manually extended into the other winding displacement groove 5 to penetrate out of the other guide pipe 6, the suture line is fixed on the tissue forceps, then the tissue forceps are used for clamping wounds, then an operating doctor attaches the suture line arranged on the two clamping parts 7 to the wounds, then the suture line is fixed through an operating instrument and is gradually pulled out of the tissue forceps, so that the suture line is wound on the wounds, and then the wounds are sutured by knotting.

In the process of operation, the types of the suture lines are different, so the hardness of the suture lines is different, when the suture lines with higher hardness are buried in the tissue forceps, a doctor can manually pass the suture lines on the guide tubes 6, the suture lines can be passed inside by the arrangement grooves 5 arranged inside the puncture part 8, the caliber inside the guide wire holes 501 is gradually reduced, the resistance of the suture lines in the puncture process can be reduced, when the suture lines with softer hardness are punctured, the doctor can manually pass the suture lines to encounter difficulties in the puncture process due to the softer hardness, the suture lines can be passed into a part from the guide tubes 6 on one side, then the two ends of the puncture part 8 are closed, then the suture lines are fixed by the rotating component 1, then the guide tubes 6 on the other side are connected into the suction pump, and then the suture lines are sucked by the air flow generated by the suction pump, therefore, suture can be carried out, the guide tube 6 can lead the tissue forceps to carry out suture lines with different thread burial hardness, the operation of the device is convenient, and the practicability of the device is improved.

The foregoing shows and describes the general principles and broad features of the present invention and advantages thereof. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, which are described in the specification and illustrated only to illustrate the principle of the present invention, but that various changes and modifications may be made therein without departing from the spirit and scope of the present invention, which fall within the scope of the invention as claimed. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims

1. Thread burial soft tissue forceps comprises two tissue forceps arms (2) and is characterized in that: two organize pincers tong arm (2) center and pass through runner assembly (1) and connect, two organize pincers tong arm (2) front end homogeneous body and be equipped with curved clamping part (7), two organize pincers tong arm (2) and keep away from clamping part (7) tip all welded fastening and have extension board (3), two extension board (3) keep away from organize pincers tong arm (2) tip all welded fastening and have organize pincers handle (4), two clamping part (7) surface welded fastening has guiding tube (6) that are used for the threading, two clamping part (7) front end is provided with puncture portion (8), two the composition surface slope of puncture portion (8) is pasted mutually, two winding displacement groove (5), two have all been seted up at clamping part (7) and puncture portion (8) center guiding tube (6) all stretch into in winding displacement groove (5).

2. The thread burial soft tissue forceps of claim 1, wherein: the inner walls of the two wire arrangement grooves (5) are provided with wire holes (501) in an integrated mode.

3. The thread burial soft tissue forceps of claim 1, wherein: the caliber of one end of the wire guide hole (501), which is close to the clamping part (7), is gradually reduced to the end, which is far away from the clamping part (7), and a waterproof layer (502) is arranged on the inner wall of the wire guide hole (501).

4. The thread burial soft tissue forceps of claim 1, wherein: the rotating assembly (1) comprises a rotating shaft (101), a rotating groove (102) and a rotating rod (103), wherein the rotating groove (102) is formed in the joint of one tissue forceps arm (2) and the other tissue forceps arm (2).

5. The thread burial soft tissue forceps of claim 4, wherein: a rotating rod (103) is arranged at the joint of the other tissue forceps arm (2), the rotating rod (103) is movably arranged in the rotating groove (102), and a rotating shaft (101) is arranged on the rotating rod (103) and the rotating groove (102).

6. The thread burial soft tissue forceps of claim 5, wherein: two supporting plate (3) one side all fixedly connected with pinion rack (301), two pinion rack (301) size equals and with supporting plate (3) horizontal central line mutual symmetry and meshing.