CN114769473A - Multi-functional processing equipment of barb stylolite tail ring welding - Google Patents

Abstract

The invention relates to the technical field of suture welding, and provides multifunctional processing equipment for welding a tail ring of an agnail suture, which comprises a machine tool, wherein a suture tail ring welding mechanism is arranged on the machine tool, the suture tail ring welding mechanism automatically bends and rings the suture and performs fusion welding to form the suture, the suture tail ring welding mechanism comprises a first driving piece, a guide column and a welding head, the first driving piece is arranged on the machine tool, the guide column is arranged on a rotating shaft of the first driving piece, a through groove is arranged on the end surface of the free end of the guide column along the radial direction, the guide column stretches along the direction vertical to the thread feeding direction, and the welding head moves up and down and is arranged on the machine tool. Through above-mentioned technical scheme, solved among the prior art the device that forms the barb on the suture and in one-way barb product formation process, can not go on with the welding of tail end anchor ring and other end installation suture needle together problem.

Description

Multi-functional processing equipment of barb stylolite tail ring welding

Technical Field

The invention relates to the technical field of suture welding, in particular to multifunctional machining equipment for welding a tail ring of an agnail suture.

Background

In the prior art, the device for forming barbs on a suture line cannot be carried out together with the welding of a tail end anchor ring and the installation of a suture needle at the other end in the forming process of a one-way barb product. The barb direction needs to be determined when the anchor ring is welded, the production efficiency is low, and factors influencing the product quality artificially are large.

Moreover, three independent devices are needed for completing barb cutting, anchor ring welding and needle mounting of the suture line, and the occupied space is large; in the process of bending the suture line into a ring, the overlapped part of the suture line cannot be tightly attached, so that the welding position of the welding ring is deviated, and the diameter of the ring is different.

Disclosure of Invention

The invention provides multifunctional processing equipment for welding a tail ring of an agnail suture line, which solves the problem that a device for forming an agnail on the suture line in the prior art cannot be welded with a tail anchor ring and a suture needle arranged at the other end of the tail anchor ring in the process of forming a one-way agnail product.

The technical scheme of the invention is as follows:

a multifunctional processing device for welding a tail ring of an agnail suture line, which comprises a machine tool,

the machine tool is provided with a suture tail ring welding mechanism which automatically bends and rings a suture and melts and welds the suture into a ring, the suture tail ring welding mechanism comprises,

a first driving member mounted on the machine tool,

the guide post is arranged on the rotating shaft of the first driving piece, the end surface of the free end of the guide post is provided with a through groove along the radial direction, the guide post stretches along the direction vertical to the wire feeding direction,

and the welding head is arranged on the machine tool in a vertically moving mode.

As a further technical proposal, the suture tail ring welding mechanism comprises,

a fixed base mounted on the machine tool,

a second driving member mounted on the stationary base,

a movable welding table, the movable welding table is arranged at the movable end of the second driving piece, the welding head is arranged on the movable welding table,

the wire feeding table is arranged on the fixed base, a circular hole is formed in the wire feeding table, the central axis of the circular hole is perpendicular to the wire feeding direction,

the guide post is telescopically arranged in the circular hole on the wire feeding table,

the wire feeding platform is provided with the wire feeding groove.

As a further technical proposal, the utility model also comprises a thread cutting mechanism which comprises,

two driving seats are arranged and arranged along the wiring direction, the two driving seats are arranged on the machine tool,

a line-arranging platform which is arranged between the rotating parts of the two driving seats,

a tool pushing table mounted on the line positioning table,

the cutter head is arranged on the cutter pushing table, an acute angle included angle is formed between the cutter feeding direction of the cutter pushing table and the wire feeding direction, and the inclined direction of the cutter head is consistent with the cutter feeding direction of the cutter pushing table.

As a further technical scheme, the line-setting table is provided with a table top and two convex parts, two through line holes are respectively formed in the two convex parts, the axis of each through line hole is the rotating axis of the line-setting table, two rotating part axes of the driving seats are respectively provided with one through line hole, and the through line holes in the convex parts and the through line hole axes of the rotating part axes of the driving seats are located on the same straight line.

As a further technical proposal, the thread cutting mechanism also comprises,

a first set of thread feeding rollers mounted on the machine tool,

a second set of thread feed rollers mounted on the machine tool.

As a further technical proposal, the thread cutting mechanism also comprises,

and the electric cutting table is arranged on one side, close to the second wire feeding roller set, of the machine tool.

As a further technical proposal, the device also comprises an upper needle mechanism which comprises,

a vertical chute column mounted on the mounting table,

the sliding seat is arranged on the vertical sliding groove column in a sliding manner,

the needle inserting tube penetrates through the sliding seat.

As a further technical proposal, the device also comprises a transfer mechanism which comprises,

a slide rail mounted on the machine tool,

a mobile station, which is arranged on the slide rail in a sliding way,

a third thread feeding roller group, two of which are respectively arranged at two sides of the upper surface of the moving platform,

a load-bearing slot table mounted on the mobile station,

the mounting table is mounted on the machine tool.

As a further technical scheme, the wire feeding device further comprises a photoelectric sensor assembly, and the photoelectric sensor assembly is installed on one side, far away from the third wire feeding roller set, of the wire feeding table.

As a further technical proposal, the utility model also comprises a line pressing mechanism which comprises,

the connecting frame is arranged on the fixed base,

a first limit slide rail mounted on the connecting frame,

a second limiting slide rail mounted on the connecting frame,

the first rack is arranged in the first limiting slide rail in a sliding manner through a sliding block, one side of the first rack close to the second limiting slide rail is provided with a tooth-lacking part,

the second rack is arranged in the second limiting slide rail in a sliding manner and fixedly connected with the first rack,

a first rotating shaft rod rotatably arranged on the shell of the first driving member,

a second rotating shaft rod which is fixedly connected with the other end of the first driving piece rotating shaft and synchronously rotates with the guide post,

a first gear fixedly connected to the first rotating shaft rod,

a second gear fixedly connected to the second rotating shaft rod, the second gear engaging the second rack,

the rotary connecting seat is arranged on the inner side wall of the wire feeding groove on the wire feeding platform, a rotating shaft of the rotary connecting seat is fixedly connected with the first rotating shaft rod,

and the rotating pressure rod is fixedly connected to the rotating shaft of the rotating connecting seat.

The working principle and the beneficial effects of the invention are as follows:

after the barbs are formed on the suture, the operations of anchor ring welding and needle mounting can be completed without taking down the suture, so that the production efficiency is improved, the use number of equipment is reduced, the occupied space is saved, the degree of artificially influencing the product quality is reduced, and the stability of the product quality is ensured;

the suture to be processed is inserted into the through groove of the guide post, a certain length is passed, the first driving part drives the guide post to rotate, the through groove on the guide post starts to rotate from a horizontal state, then the guide post drives the end part of the suture to be processed to realize automatic bending and looping, the end part of the suture to be processed is lapped on the other side of the loop to form an overlapped part in a laminating manner, the overlapped part is pressed downwards to be tightly laminated, at the moment, the second driving part drives the movable welding table and the welding head to move downwards, the welding head moves downwards to the overlapped part on one side of the loop, the suture to be processed is welded together in a melting and bonding manner through ultrasonic vibration, a tail loop of the suture to be processed is formed, and automatic bending and looping and automatic welding of the suture are realized.

Drawings

The invention is described in further detail below with reference to the drawings and the detailed description.

FIG. 1 is a schematic three-dimensional structure of a multifunctional processing device for welding a tail ring of a barbed suture according to the present invention;

FIG. 2 is a schematic three-dimensional structure of a suture tail ring welding mechanism according to the present invention;

FIG. 3 is a schematic first perspective view of a portion of a three-dimensional configuration of a suture tail ring welding mechanism of the present invention;

FIG. 4 is a schematic second perspective view of a portion of a three-dimensional configuration of a suture tail ring welding mechanism of the present invention;

FIG. 5 is an enlarged view of area A of the present invention;

FIG. 6 is a schematic three-dimensional structure of the thread cutting mechanism according to the present invention;

FIG. 7 is a schematic three-dimensional structure of the needle feeding mechanism of the present invention;

FIG. 8 is a schematic view of a three-dimensional structure of a portion of the needle mounting mechanism of the present invention;

FIG. 9 is a schematic first perspective view of a three-dimensional configuration of a portion of the multi-functional barbed suture tail ring welding tooling of the present invention;

FIG. 10 is a schematic second perspective view of a portion of a three-dimensional configuration of a multi-functional barbed suture tail ring welding tooling apparatus according to the present invention;

FIG. 11 is a third perspective view of a three-dimensional configuration of a portion of the multi-functional barbed suture tail ring welding tooling of the present invention;

FIG. 12 is a fourth perspective view of a three-dimensional structure of a portion of the multi-functional barbed suture tail ring welding tooling of the present invention.

In the figure: 1. a machine tool; 2. a slide rail; 3. a suture to be treated; 301. a fixed base; 302. a second driving member; 303. moving the welding table; 304. a welding head; 305. a wire feeding table; 306. a first driving member; 307. a guide post; 308. a wire feeding groove; 309. a photosensor assembly; 310. a connecting frame; 311. a first limit slide rail; 312. a second limiting slide rail; 313. a first rack; 314. a second rack; 315. a first gear; 316. a second gear; 317. a first spindle shaft; 318. a second rotating shaft rod; 319. rotating the connecting seat; 320. rotating the compression bar; 401. a first set of wire feed rollers; 402. a driving seat; 403. a line-defining table; 404. a tool pushing table; 405. a cutter head; 406. a second thread feeding roller set; 407. an electric cutting table; 501. a mobile station; 502. a third set of wire feed rollers; 503. a load-bearing trough table; 504. an installation table; 505. a vertical chute column; 506. a sliding seat; 507. a needle inserting tube.

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 inventive step, are intended to be within the scope of the present invention.

As shown in fig. 1 to 5, the present embodiment provides a multifunctional machining apparatus for welding a tail ring of a barbed suture, which comprises a machine tool 1,

the machine tool 1 is provided with a suture tail ring welding mechanism which automatically bends and loops a suture and fuses and welds the suture to form a ring, the suture tail ring welding mechanism comprises,

a first drive 306, said first drive 306 being mounted on said machine tool 1,

the guide column 307 is arranged on the rotating shaft of the first driving part 306 through an electric telescopic part, a through groove is radially arranged on the end surface of the free end of the guide column 307, the guide column 307 is telescopic along the direction vertical to the feeding line,

a welding head 304, wherein the welding head 304 is arranged on the machine tool 1 in a way of moving up and down.

The suture tail ring welding mechanism comprises a suture tail ring welding mechanism,

a fixed base 301, the fixed base 301 being mounted on the machine tool 1,

a second driving member 302, the second driving member 302 being mounted on the fixing base 301,

a movable welding table 303, the movable welding table 303 is mounted at the movable end of the second driving element 302, the welding head 304 is mounted on the movable welding table 303,

a wire feeding table 305, wherein the wire feeding table 305 is installed on the fixed base 301, a circular hole is formed on the wire feeding table 305, the central axis of the circular hole is vertical to the wire feeding direction,

the guide column 307 is telescopically arranged in a circular hole on the wire feeding table 305,

the wire feeding groove 308 is arranged on the wire feeding table 305.

In this embodiment, the suture thread 3 to be processed is fed from the thread feeding groove 308 into the gap of the thread feeding table 305, then the suture 3 to be processed is inserted into the through groove of the guide column 307, after a certain length of the suture passes through, the first driving member 306 drives the guide column 307 to rotate, the through groove on the guide column 307 rotates from a horizontal state, and the guide column 307 drives the end of the suture 3 to be processed to realize automatic bending and looping, so that the end of the suture 3 to be processed is lapped on the other side of the loop to form an overlapping part in a fitting manner, at the moment, the second driving piece 302 drives the movable welding platform 303 and the welding head 304 to move downwards, so that the welding head 304 moves downwards to the overlapping part on one side of the loop, the suture 3 to be processed is fused, bonded and welded together by pressurizing and heating or ultrasonic vibration to form a tail ring of the suture 3 to be processed, so that the automatic bending ring formation and the automatic welding of the suture are realized;

after the welding of the tail ring is completed, the guiding column 307 is contracted, that is, the guiding column 307 moves in the circular hole, the guiding column 307 is extracted from the tail ring, and then the suture thread after the welding of the tail ring is completed can be extracted.

As shown in fig. 1 to 6, the wire cutting device further comprises a wire cutting mechanism, the wire cutting mechanism comprises,

a first line feeding roller group 401, the first line feeding roller group 401 being mounted on the machine tool 1,

a drive mount 402, two of the drive mounts 402 being mounted on the machine tool 1,

a routing table 403, the routing table 403 is arranged between the rotating parts of the two driving seats 402,

a push bench 404, the push bench 404 is installed on the alignment bench 403,

a cutter head 405, the cutter head 405 is mounted on the cutter pushing table 404, the moving direction of the cutter pushing table 404 forms an acute included angle with the line feeding direction, the inclination direction of the cutter head 405 is consistent with the moving direction of the cutter pushing table 404,

a second thread feeding roller group 406, the second thread feeding roller group 406 being mounted on the machine tool 1,

and the electric cutting table 407 is installed on one side of the machine tool 1 close to the second wire feeding roller group 406.

The alignment table 403 has a table top and two protruding portions, two through holes are respectively formed in the two protruding portions, the axis of the through hole is the rotation axis of the alignment table 403, two through holes are respectively formed in the rotation axis of the driving seat 402, and the through holes in the protruding portions and the axis of the through hole in the rotation axis of the driving seat 402 are located on the same straight line.

The suture 3 to be processed passes through the first thread feeding roller set 401, then sequentially passes through the through holes of the two convex parts of the thread positioning table 403, and then passes through the second thread feeding roller set 406, so that the fixed-speed conveying of the suture 3 to be processed is realized, the driving seat 402 provides power to drive the thread positioning table 403 in the conveying process, the push-type broach table 404 and the cutter head 405 continuously rotate at a fixed interval angle, and simultaneously, the push-type broach table 404 drives the cutter head 405 to obliquely push once every time of rotation, namely, the cutter head 405 is obliquely cut on the suture 3 to be processed to form an oblique incision and form barbs, and the continuous and spiral barbs cut on the surface of the suture 3 to be processed are realized along with the cutting action and the rotating action of the cutter head 405;

the cut suture thread 3 to be treated is fed out from the second thread feeding roller group 406 and moved onto the table of the electric cutting table 407, and when a predetermined length is reached, the electric cutting table 407 cuts the suture thread 3 to be treated.

As shown in fig. 1 to 8, further comprises an upper needle mechanism, the upper needle mechanism comprises,

a slide rail 2, the slide rail 2 is arranged on the machine tool 1,

a mobile station 501, wherein the mobile station 501 is slidably arranged on the slide rail 2,

a third line feeding roller group 502, two of the third line feeding roller groups 502 being respectively provided on both sides of an upper surface of the moving table 501,

a load-bearing slot table 503, the load-bearing slot table 503 is installed on the mobile station 501,

a mounting table 504, the mounting table 504 being mounted on the machine tool 1,

a vertical chute column 505, the vertical chute column 505 being mounted on the mounting table 504,

a sliding seat 506, the sliding seat 506 is slidably arranged on the vertical chute column 505,

needle inserting tube 507, said needle inserting tube 507 is through-set in said sliding seat 506.

In this embodiment, a needle is fixed in a needle insertion tube 507, after a suture 3 to be treated passes through a table top of an electric cutting table 407, the suture 3 to be treated passes through a third suture feeding roller set 502 and is held by a bearing groove table 503, then after the suture 3 to be treated is cut by the electric cutting table 407, the suture 3 to be treated is placed in a groove on the bearing groove table 503, and two sides of the suture 3 to be treated are held by two third suture feeding roller sets 502, at this time, a moving table 501 slides on a sliding rail 2 to drive the third suture feeding roller set 502, the bearing groove table 503 and the suture 3 to be treated to move to positions facing an installation table 504, at this time, the third suture feeding roller set 502 is controlled to horizontally convey the suture 3 to be treated, and one end of the suture 3 to be treated is firstly inserted into a suture tail ring welding mechanism to be subjected to tail ring welding; then, controlling the third thread feeding roller group 502 to rotate reversely, so that one end of the suture thread 3 to be processed extends into the needle inserting tube 507, and finishing needle inserting;

when the tail ring and the upper needle are welded, the other group of upper needle mechanisms and the thread cutting mechanism are matched to receive the cut and dropped suture thread 3 to be processed and move to the other side of the machine tool 1, the other suture thread tail ring welding mechanism is used for welding the ring and carrying out the needle feeding, and the gapless continuous processing of the suture thread 3 to be processed is realized.

The wire feeding device further comprises a photoelectric sensor assembly 309, and the photoelectric sensor assembly 309 is installed on one side, far away from the third wire feeding roller group 502, of the wire feeding table 305.

In this embodiment, the suture thread 3 to be processed is fed into the gap of the thread feeding table 305 from the thread feeding groove 308, then the suture thread 3 to be processed is inserted into the through groove of the guiding column 307, when the end of the suture thread 3 to be processed moves between the photoelectric sensor assemblies 309, the photoelectric sensor assemblies 309 are triggered by the suture thread 3 to be processed, the photoelectric sensor assemblies 309 send out signals, the suture thread 3 to be processed stops being conveyed, the first driving member 306 drives the guiding column 307 to rotate, and the through groove on the guiding column 307 starts to rotate from a horizontal state.

As shown in fig. 1 to 12, further comprises a wire pressing mechanism, wherein the wire pressing mechanism comprises,

a connection frame 310, wherein the connection frame 310 is installed on the fixing base 301,

a first limit slide rail 311, wherein the first limit slide rail 311 is installed on the connecting frame 310,

a second limit slide rail 312, wherein the second limit slide rail 312 is installed on the connecting frame 310,

the first rack 313 is arranged in the first limit sliding rail 311 in a sliding manner through a sliding block, one side of the first rack 313 close to the second limit sliding rail 312 is provided with a tooth-lacking part,

the second rack 314 is slidably disposed in the second limiting slide rail 312, the second rack 314 is fixedly connected to the first rack 313,

a first rotating shaft bar 317, the first rotating shaft bar 317 is rotatably arranged on the shell of the first driving member 306,

a second rotating shaft rod 318, the second rotating shaft rod 318 is fixedly connected to the other end of the first driving member 306, and rotates synchronously with the guiding column 307,

a first gear 315, the first gear 315 being fixed to the first rotating shaft 317,

a second gear 316, the second gear 316 being fixedly connected to the second rotating shaft 318, the second gear 316 engaging the second rack 314,

a rotary connecting seat 319, the rotary connecting seat 319 is installed on the inner side wall of the wire feeding groove 308 on the wire feeding table 305, the rotating shaft of the rotary connecting seat 319 is fixedly connected with the first rotating shaft rod 317,

the rotating pressing rod 320 is fixedly connected to the rotating shaft of the rotating connecting seat 319.

In this embodiment, when the first driving member 306 drives the guiding post 307 to rotate, and the through slot on the guiding post 307 starts to rotate from a horizontal state, the first driving member 306 simultaneously drives the second rotating shaft 318 to rotate, and then the second rotating shaft 318 drives the second gear 316 to rotate, so that the second gear 316 drives the second rack 314 to slide in the second limiting slide rail 312, and the second rack 314 drives the first rack 313 to synchronously slide in the first limiting slide rail 311, after sliding for a certain distance, the guiding post 307 drives the end of the suture 3 to be processed to automatically bend into a ring, so that the end of the suture 3 to be processed is lapped on the other side of the ring to form an overlapping portion, and at the same time, the first rack 313 starts to engage with the first gear 315, i.e. the first gear 315 starts to drive the first rotating shaft 317 to synchronously rotate, and the first rotating shaft 317 drives the rotating press rod 320 to rotate through the rotating connecting seat 319, namely, the rotating compression bar 320 is lapped on one side of the guide column 307 where the suture 3 to be treated is overlapped, one side of the overlapped part of the suture 3 to be treated, which is close to the guide column 307, is pressed downwards, so that the overlapped part of the suture 3 to be treated is tightly attached, then the second driving piece 302 drives the movable welding platform 303 and the welding head 304 to move downwards, so that the welding head 304 moves downwards to the overlapped part of one side of the ring, the suture 3 to be treated is fused, bonded and welded together through pressurizing heating or ultrasonic vibration, a tail ring of the suture 3 to be treated is formed, and automatic bending, looping and automatic welding of the suture are realized.

The present invention is not limited to the above preferred embodiments, and any modifications, equivalent substitutions, improvements, etc. within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (10)

1. A multifunctional processing device for welding a barb suture tail ring comprises a machine tool (1),

it is characterized in that a suture tail ring welding mechanism is arranged on the machine tool (1), the suture tail ring welding mechanism automatically bends and loopes a suture and melts and welds the suture to form a ring, the suture tail ring welding mechanism comprises,

a first drive (306), the first drive (306) being mounted on the machine tool (1),

the guide post (307) is arranged on a rotating shaft of the first driving piece (306), a through groove is radially arranged on the end face of the free end of the guide post (307), the guide post (307) stretches and retracts in the direction vertical to the wire feeding direction,

a welding head (304), wherein the welding head (304) is arranged on the machine tool (1) in a way of moving up and down,

the wire feeding table (305) is installed on the machine tool (1), a circular hole is formed in the wire feeding table (305), the central axis of the circular hole is perpendicular to the wire feeding direction,

the wire feeding groove (308) is formed in the wire feeding table (305).

2. The multifunctional welding machine for the barbed suture tail ring according to claim 1, wherein said suture tail ring welding means comprises,

a stationary base (301), the stationary base (301) is installed on the machine tool (1), the wire feeding table (305) is installed on the stationary base (301)

A second drive member (302), the second drive member (302) being mounted on the stationary base (301),

a movable welding table (303), the movable welding table (303) is arranged at the movable end of the second driving element (302), the welding head (304) is arranged on the movable welding table (303),

the guide column (307) is telescopically arranged in a circular hole on the wire feeding table (305).

3. The multifunctional welding processing device for the barbed suture tail ring according to claim 2, further comprising a thread cutting mechanism, said thread cutting mechanism comprising,

two driving seats (402), two driving seats (402) are arranged along the routing direction, the two driving seats (402) are arranged on the machine tool (1),

a line positioning table (403), wherein the line positioning table (403) is arranged between the rotating parts of the two driving seats (402),

a push bench (404), the push bench (404) is arranged on the alignment bench (403),

tool bit (405), tool bit (405) install in push away on the sword platform (404), push away the sword direction of sword platform (404) and send the line direction to become acute angle contained angle, tool bit (405) incline direction with push away the sword direction of sword platform (404) unanimous.

4. The multifunctional machining equipment for welding the tail ring of the barbed suture according to claim 3, wherein the alignment table (403) is provided with a table top and two protruding parts, the two protruding parts are respectively provided with a through hole, the axis of the through hole is the rotation axis of the alignment table (403), the axes of the rotation parts of the two driving seats (402) are respectively provided with a through hole, and the through hole on the protruding part and the axis of the through hole on the rotation part of the driving seat (402) are positioned on the same straight line.

5. The multifunctional barbed suture tail ring welding machining device according to claim 4, wherein the thread cutting mechanism further comprises,

a first set of thread feeding rollers (401), said first set of thread feeding rollers (401) being mounted on said machine tool (1),

a second set of thread-feed rollers (406), the second set of thread-feed rollers (406) being mounted on the machine tool (1).

6. The multifunctional barbed suture tail ring welding machining device according to claim 5, wherein the thread cutting mechanism further comprises,

an electric cutting table (407), wherein the electric cutting table (407) is arranged on one side of the second wire feeding roller group (406) far away from the first wire feeding roller group (401) on the machine tool (1).

7. The multifunctional machining equipment for welding the tail ring of the barbed suture line according to claim 6, further comprising an upper needle mechanism, wherein the upper needle mechanism comprises,

a mounting table (504), the mounting table (504) being mounted on the machine tool (1),

a vertical chute column (505), the vertical chute column (505) being mounted on the mounting table (504),

a sliding seat (506), wherein the sliding seat (506) is arranged on the vertical chute column (505) in a sliding manner,

a needle insertion tube (507), wherein the needle insertion tube (507) is arranged in the sliding seat (506) in a penetrating way.

8. The multi-functional barbed suture tail ring welding machining device according to claim 7, further comprising a transfer mechanism, said transfer mechanism comprising,

a slide rail (2), wherein the slide rail (2) is arranged on the machine tool (1),

a mobile station (501), wherein the mobile station (501) is arranged on the sliding rail (2) in a sliding way,

third thread feeding roller groups (502), two of the third thread feeding roller groups (502) are respectively arranged at two sides of the upper surface of the moving platform (501),

a load-bearing slot table (503), wherein the load-bearing slot table (503) is installed on the mobile station (501).

9. The multifunctional barbed suture tail ring welding machining equipment according to claim 8, further comprising a photoelectric sensor assembly (309), wherein the photoelectric sensor assembly (309) is installed on one side, far away from the third wire feeding roller set (502), of the wire feeding table (305), the wire feeding groove (308) is provided with two sections, one section is arranged on one side, close to the photoelectric sensor assembly (309), of the wire feeding table (305), and the other section is arranged on one side, close to the bearing groove table (503), of the wire feeding table (305).

10. The multifunctional barbed suture tail ring welding machining device according to claim 9, further comprising a crimping mechanism, said crimping mechanism comprising,

a connection frame (310), the connection frame (310) being mounted on the fixing base (301),

a first limit slide rail (311), wherein the first limit slide rail (311) is arranged on the connecting frame (310),

a second limit slide rail (312), the second limit slide rail (312) is installed on the connecting frame (310),

the first rack (313) is arranged in the first limiting slide rail (311) in a sliding manner through a sliding block, one side, close to the second limiting slide rail (312), of the first rack (313) is provided with a tooth missing part,

the second rack (314) is arranged in the second limit sliding rail (312) in a sliding manner, the second rack (314) is fixedly connected with the first rack (313),

a first spindle shaft (317), the first spindle shaft (317) being rotatably arranged on a housing of the first driver (306),

a second rotating shaft rod (318), the second rotating shaft rod (318) is fixedly connected to the other end of the first driving member (306) on the rotating shaft and rotates synchronously with the guide column (307),

a first gear (315), the first gear (315) being fixedly connected to the first rotating shaft (317),

a second gear (316), the second gear (316) being fixedly connected to the second rotating shaft (318), the second gear (316) engaging the second rack (314),

a rotary connecting seat (319), the rotary connecting seat (319) is arranged on the inner side wall of the wire feeding groove (308) on the wire feeding table (305), the rotating shaft of the rotary connecting seat (319) is fixedly connected with the first rotating shaft rod (317),

and the rotating pressure rod (320), and the rotating pressure rod (320) is fixedly connected to the rotating shaft of the rotating connecting seat (319).

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