CN114424959A

CN114424959A - Bendable repeating clip applier for surgical robot

Info

Publication number: CN114424959A
Application number: CN202111427010.XA
Authority: CN
Inventors: 庞建; 高轶明; 翟俊旺
Original assignee: Suzhou Wesent Medical Robot Co Ltd
Current assignee: Suzhou Wesent Medical Robot Co Ltd
Priority date: 2021-11-28
Filing date: 2021-11-28
Publication date: 2022-05-03

Abstract

The invention discloses a bendable repeating clip applier for a surgical robot, which comprises a clip body base, a clip body tube connected with the clip body base, a nail feeding rod connected with the clip body base and a nail closing rod connected with the clip body base, wherein the clip body tube is provided with a plurality of clip holes; a nail feeding rod movement mechanism and a nail closing rod movement mechanism are arranged in the base of the device body; the two bending control bobbins are respectively and fixedly connected with the fourth chuck and the fifth chuck; the wire fixing device is provided with a plurality of wire holes, and the wire rope is connected with the turning control wire shaft; the body pipe comprises a front body pipe and a rear body pipe, and the front body pipe and the rear body pipe are connected through a joint; the nail feeding rod and the nail closing rod are respectively provided with a flexible part, and the flexible parts correspond to the joints; one end of the wire rope is fixedly connected with the winding shaft groove, and the other end of the wire rope extends into the body tube from the wire guide hole and is connected with the joint. After the surgical robot is docked, the shaft lever of the clip applier can be bent, so that the flexibility of the clip applier in the surgical process is improved.

Description

Bendable repeating clip applier for surgical robot

Technical Field

The invention belongs to the technical field of forceps special for surgical robots, and particularly relates to a bendable repeating forceps for a surgical robot.

Background

With the development of medical technology, the medical operation robot technology is mature. The medical robot is used for effectively fusing the surgical instruments directly operated by common doctors to be operated by the medical robot, can realize more precise surgical actions, and particularly has greater advantages in the field of minimally invasive surgery.

Clip applier is a common surgical instrument used in surgical operations, and is used to perform a predetermined clip application operation as required during the surgical operation. At present, the clamp applying forceps in a mature surgical robot are single-hair and the shaft part can not be bent, so that the surgical efficiency is low and the flexibility needs to be improved.

Disclosure of Invention

The present invention aims to overcome the disadvantages of the prior art and to provide a bendable burst clip applier for a surgical robot.

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

a bendable repeating clip applier for surgical robots comprises a clip body base, a clip body tube connected with the clip body base, a nail feeding rod connected with the clip body base and a nail closing rod connected with the clip body base; a nail feeding rod moving mechanism for driving the nail feeding rod to move back and forth and a nail closing rod moving mechanism for driving the nail closing rod to move back and forth are arranged in the base of the device body; the body base comprises two turning control spools and a wire fixing device; the two bending control bobbins are respectively and fixedly connected with the fourth chuck and the fifth chuck, and when the fourth chuck and the fifth chuck rotate, the bending control bobbins connected with the fourth chuck and the fifth chuck rotate along with the fourth chuck and the fifth chuck; a winding shaft groove is arranged on the turning control spool;

the wire fixing device is fixedly connected with the middle layer bracket, the wire fixing device is provided with a plurality of wire holes, and the wire rope is connected with the turning control wire shaft;

the body pipe comprises a front body pipe and a rear body pipe, and the front body pipe is connected with the rear body pipe through a joint;

the nail feeding rod and the nail closing rod are respectively provided with a flexible part, and the flexible parts correspond to the joints;

one end of the wire rope is fixedly connected with the winding shaft groove, and the other end of the wire rope extends into the body tube from the wire guide hole and is connected with the joint.

Preferably, the nail feeding rod comprises a first straight rod part and a first snake rod part, and the front end of the nail feeding rod is provided with a front end head of the nail feeding rod; the nail closing rod comprises a second straight rod part and a second snake rod part, and the front end of the nail closing rod is provided with a front end of the nail closing rod; the inside fixedly connected with of sending the nail pole backs the taut rope, and the rear portion that backs the taut rope with send the inside fixedly connected of nail pole, the preceding end card of the taut rope that backs is put in the draw-in groove of sending the preceding end of nail pole, the position that backs the taut rope corresponds with first snake pole portion.

Preferably, the end parts of the front part instrument body tube and the rear part instrument body tube are respectively fixedly provided with a joint base fixedly connected with joints, adjacent joints are fixedly connected through a rotating shaft, two adjacent joints form a turning group, and the axes of the rotating shafts on the adjacent turning groups are mutually vertical; the silk ropes sequentially pass through the silk rope holes in the joints from the back to the front, and the tail end of each silk rope is fixedly connected with the silk rope hole of the joint positioned at the foremost end.

Preferably, the body base comprises a second transmission component, a third transmission component and a driving assembly;

the second transmission assembly and the third transmission assembly are respectively connected with the driving assembly;

the second transmission assembly comprises a second chuck and a second transmission wheel, and the second chuck is fixedly connected with the second transmission wheel through a shaft;

the third transmission assembly comprises a third chuck and a third transmission wheel, and the third chuck is fixedly connected with the third transmission wheel through a shaft;

the drive assembly includes an outer rotor and an inner rotor; the inner rotating body and the outer rotating body can be connected in a rotating mode by taking the central axis of the inner rotating body and the central axis of the outer rotating body as an axis;

the external rotating body comprises a first cylindrical body, a cavity extending along the central axis of the first cylindrical body is arranged in the first cylindrical body, and the outer side wall of the first cylindrical body is connected with a third driving wheel; when the third transmission wheel rotates, the first cylindrical body rotates along with the third transmission wheel;

the inner rotating body comprises a second cylindrical body, the upper part of the second cylindrical body extends into the cavity, the lower part of the second cylindrical body is positioned outside the cavity, and the outer side wall of the part of the second cylindrical body, which is positioned outside the cavity, is connected with the second driving wheel; when the second driving wheel rotates, the second cylindrical body rotates along with the second driving wheel; a nail closing driving sleeve is fixedly arranged in the second cylindrical body, a through screw hole is formed in the middle of the nail closing driving sleeve, and a nail closing rod is in threaded connection with the nail closing driving sleeve;

one end of the cavity, which is far away from the opening, is fixedly provided with a nail feeding driving sleeve, a through screw hole is formed in the nail feeding driving sleeve, and a nail feeding rod is connected with the nail feeding driving sleeve through threads;

the upper part of the first cylindrical body is fixedly connected with the positioning seat, and the first cylindrical body can rotate relative to the positioning seat; the lower part of the second cylindrical body is fixedly connected with the other positioning seat, and the second cylindrical body can rotate relative to the positioning seat;

the nail feeding rod and the nail closing rod are respectively connected with the rotation stopping mechanism, the rotation stopping mechanism can prevent the nail feeding rod and the nail closing rod from rotating by taking the self central axis as the axis, and the rotation stopping mechanism allows the nail feeding rod and the nail closing rod to move along the self central axis direction.

Preferably, the nail closing rod is sleeved outside the nail feeding rod, the body pipe is sleeved outside the nail closing rod, and the body pipe, the nail closing rod and the nail feeding rod are coaxially arranged;

the nail feeding rod penetrates through the second cylindrical body and is connected with the first cylindrical body.

Preferably, the invention further comprises a first transmission assembly and a third cylindrical body, wherein the first transmission assembly comprises a first chuck and a first transmission wheel, and the first chuck is fixedly connected with the first transmission wheel through a shaft; the lower part of the third cylindrical body is rotatably connected with the positioning seat, the third cylindrical body is fixedly connected with the instrument body tube, the third cylindrical body is connected with the first transmission wheel, and when the first transmission wheel rotates, the third cylindrical body rotates along with the first transmission wheel.

Preferably, the outer side wall of the first cylindrical body is fixedly provided with a gear ring, the third transmission wheel is a transmission gear, and the gear ring is meshed with the transmission gear;

the outer side wall of the second cylindrical body is provided with a gear ring, the second driving wheel is a transmission gear, and the gear ring is meshed with the transmission gear.

Preferably, the outer side wall of the third cylindrical body is fixedly provided with a gear ring, the first driving wheel is a driving gear, and the gear ring is meshed with the driving gear.

Preferably, the instrument body base comprises a base, a middle layer bracket and a top layer bracket, the middle layer bracket and the top layer bracket are respectively and fixedly connected with the base, the upper part of the first cylindrical body is rotatably connected with the top layer bracket, and the lower part of the second cylindrical body is rotatably connected with the middle layer bracket; the third columnar body of the repeating clip applier clamp is rotatably connected with the base; the first chuck, the second chuck and the third chuck of the instrument body base respectively extend out of the base.

Preferably, the rotation stopping mechanism comprises a rotation stopping pipe, the rotation stopping pipe is fixedly connected with a body pipe of the clip applier, and a first guide hole is formed in the side wall of the rotation stopping pipe;

the side wall of the nail closing rod is provided with a second guide hole corresponding to the first guide hole in position;

the nail feeding rod is fixedly connected with a limiting column, the limiting column is inserted into the first guide hole and the second guide hole, and when the nail feeding rod or the nail closing rod moves towards the front portion or the rear portion of the clip applier, the limiting column moves along the length direction of the first guide hole and the length direction of the second guide hole.

Preferably, the tissue clamping device comprises clamping jaws positioned at one end of a body tube, a nail bin fixedly arranged in the front body tube, a rotation stopping tube fixedly arranged in the rear body tube, a nail feeding assembly used for pushing a tissue clamp to the clamping jaws and a nail closing assembly used for closing the clamping jaws;

the nail feeding assembly comprises a nail feeding rod and a nail feeding plate fixedly connected with the nail feeding rod;

the clamping jaw is hinged with the front part of the nail bin, and a closing spring capable of providing closing force for the clamping jaw to close for a certain angle is arranged at the tail part of the clamping jaw;

the nail feeding plate is connected with the nail bin; the front end of the nail feeding plate is provided with a nail pushing head for pushing the tissue clamp, and when the nail feeding rod moves towards the front end or the rear end of the instrument, the nail feeding plate can move forwards/backwards along the length direction of the nail bin along with the nail feeding rod;

and the nail feeding plate is connected with an opening spring.

Preferably, a nail closing rod in a nail closing assembly of the clip applier is sleeved outside the nail feeding rod, the front end of the nail closing rod is fixedly connected with a nail closing pipe, the nail closing pipe is sleeved outside the nail bin, a limiting bulge is arranged on the side wall of the nail bin, a through hole is arranged on the side wall of the nail closing pipe, the limiting bulge penetrates through the through hole, and the through hole allows the limiting bulge to pass through in a reciprocating mode along the length direction of the through hole.

Preferably, two wire ropes with opposite winding directions are respectively fixed on the winding shaft grooves of each turning control spool, the wire ropes enter the body tube through wire holes in the wire fixing device, reach the joints along the body tube and are fixedly connected with the wire rope holes of the joints, and when the turning control spools are driven by the fourth chuck and the fifth chuck to rotate, the wire ropes drive the joints to turn; two wire ropes on each bending control spool form a group, and each group of wire ropes is connected with two wire rope holes opposite to each other at the joint

The bendable repeating clip applier for the surgical robot is characterized in that after the surgical robot is in butt joint, the bendable repeating clip applier can be bent at the position of a shaft rod of the clip applier, so that the flexibility of the clip applier in the surgical process is improved.

On the other hand, the continuous-hair clip applier for the surgical robot disclosed by the invention can realize the function of continuous-hair clip applier while being in butt joint and fusion with the surgical robot.

Drawings

FIG. 1 is a schematic structural view of the present invention;

FIG. 2 is a schematic structural diagram of the positional relationship of the first chuck, the second chuck and the third chuck of the present invention;

FIG. 3 is a schematic structural diagram of the connection of the first transmission assembly, the second transmission assembly and the third transmission assembly with the driving assembly;

FIG. 4 is a schematic structural view of the drive assembly of the present invention;

FIG. 5 is a schematic structural view of the nail feeding assembly and the nail closing assembly of the present invention;

FIG. 6 is a schematic structural view of the anti-rotation mechanism of the present invention;

FIG. 7 is a schematic structural view of the present invention showing the placement of the tissue clip within the staple cartridge;

FIG. 8 is a schematic view of the structure of the base, middle layer bracket, and top layer bracket of the present invention;

FIG. 9 is a schematic view showing the construction of the coupling of the outer rotor and the inner rotor according to the present invention;

FIG. 10 is a schematic view of the closure spring of the present invention;

FIG. 11 is a schematic view of the construction of the expanding spring of the present invention;

FIG. 12 is a schematic structural view of the housing of the present invention;

FIG. 13 is a schematic structural view of a fourth chuck and a fifth chuck of the present invention;

FIG. 14 is a schematic structural view of a bend control spool of the present invention;

FIG. 15 is a schematic view of the wire fixing device of the present invention;

FIG. 16 is a schematic view of the connection of the wire rope of the present invention to the wire binding device;

FIG. 17 is a schematic view of the construction of the flexible, bendable portion of the clip applier of the invention;

FIG. 18 is a schematic structural view of a joint of the present invention;

FIG. 19 is a schematic view of the construction of the backspacing tether of the present invention;

FIG. 20 is a schematic structural view of the connection of the staple feeding and closing rods to the withdrawal string in accordance with one embodiment of the present invention;

FIG. 21 is a schematic view of a flexible, bendable section of one embodiment of the present invention;

FIG. 22 is a schematic view of a structure of the present invention with an embodiment of a bendable portion;

in the drawing, 1 clamp applying clamp, 2 clamp jaws, 3 instrument tube, 4 instrument base, 5 nail feeding rod, 6 nail closing rod, 71 first chuck, 72 first driving wheel, 81 second chuck, 82 second driving wheel, 91 outer rotating body, 911 first column body, 912 cavity, 913 nail feeding driving sleeve, 92 inner rotating body, 921 second column body, 922 nail closing driving sleeve, 93 third column body, 94 third chuck, 95 third driving wheel, 10 gear ring, 11 shell, 111 base, 112 middle layer bracket, 113 upper cover, 114 top layer bracket, 121 rotation stopping tube, 122 first guiding hole, 123 second guiding hole, 124 limiting column, 13 nail bin, 131 limiting bulge, 132 nail bin backstop elastic sheet, 14 nail feeding plate, 141 nail pushing head, 142 nail feeding elastic sheet, 15 closing spring, 16 nail closing spring, 17 nail closing tube, 18 through hole, 19 actuating hook, 191 actuating hook hole, 20 guiding fixing sheet, 201 fixing hole, The device comprises a manual control port 21, a control port cover plate 22, a tissue clamp, an 1 positioning lug boss, central axes of an outer rotator and an inner rotator of the b, a bearing c, a position of a table d and a tail part of a clamping jaw e.

24 front body tube, 25 rear body tube, 26 joints, 261 wire hole, 262 rotating shaft, 27 first straight rod part, 271 front end of nail feeding rod, 28 first snake rod part, 29 second straight rod part, 291 front end of nail closing rod, 30 second snake rod part, 40 withdrawing tensioning rope, 401 withdrawing tensioning rope front end, 50 wire rope, 60 turning control spool, 601 winding shaft groove, 70 wire fixing device, 701 wire hole, 80 fourth chuck and 90 fifth chuck.

Detailed Description

The following examples are given in conjunction with the accompanying drawings to further illustrate the embodiments. The present invention is not limited to the description of the following examples.

In the following embodiments, the main disclosed technical solutions are: a repeating clip applier for a surgical robot belongs to a part of a minimally invasive surgical robot system, and is assembled with a mechanical arm in the process of minimally invasive surgery, and the manipulation actions input by a doctor (a doctor, a nurse or other workers who manipulate the minimally invasive surgical robot system in the process of surgery in the following implementation mode) are converted into the surgical actions of a front-end instrument through the minimally invasive surgical robot system.

Example 1

In this embodiment, in order to facilitate those skilled in the art to fully and clearly understand the technical solutions disclosed in the embodiments of the present invention, a relatively uniform orientation reference is used: the orientation of the clamping jaw is taken as the front, and the orientation of the body base is taken as the back (refer to figure 1). In this embodiment, the tissue clips may also be referred to as staples or tacks.

Referring to fig. 1 to 4, a bendable repeating clip applier for surgical robots, the clip applier having a staple feed bar, a staple closure bar and a body tube respectively connected to a body base which, in use, is connected to a robot arm of a surgical robot.

As shown in fig. 3 and 4, the body base includes a second transmission member, a third transmission member, and a driving assembly.

The second transmission component and the third transmission component are respectively connected with the driving assembly.

The second transmission assembly comprises a second chuck and a second transmission wheel, and the second chuck is fixedly connected with the second transmission wheel through a shaft. When the second chuck rotates, the second transmission wheel rotates along with the second chuck.

The third transmission assembly comprises a third chuck and a third transmission wheel, and the third chuck is fixedly connected with the third transmission wheel through a shaft. When the third chuck rotates, the third driving wheel rotates along with the third chuck.

The drive assembly comprises an outer rotor and an inner rotor; the inner rotating body and the outer rotating body can be connected in a rotating mode by taking the central axis of the inner rotating body and the central axis of the outer rotating body as an axis.

The external rotating body comprises a first cylindrical body, a cavity extending along the central axis of the first cylindrical body is arranged in the first cylindrical body, and the outer side wall of the first cylindrical body is connected with the third transmission wheel; when the third transmission wheel rotates, the first cylindrical body rotates along with the third transmission wheel.

As shown in fig. 3 and 4, the inner rotating body comprises a second cylindrical body, the upper part of the second cylindrical body extends into the cavity, the lower part of the second cylindrical body is positioned outside the cavity, and the outer side wall of the part of the second cylindrical body, which is positioned outside the cavity, is connected with the second driving wheel; when the second driving wheel rotates, the second cylindrical body rotates along with the second driving wheel; the nail closing driving sleeve is fixedly arranged inside the second cylindrical body, a through screw hole is formed in the middle of the nail closing driving sleeve, and the nail closing rod is in threaded connection with the nail closing driving sleeve.

The one end of keeping away from the open-ended in chamber is fixed to be provided with and send the nail drive cover, send nail drive cover inside to be provided with penetrating screw, send the nail pole with send through threaded connection between the nail drive cover.

In the embodiment, the nail feeding driving sleeve and the nail closing driving sleeve are hollow sleeve-shaped driving sleeves with connecting threads.

Referring to fig. 8: the upper part of the first cylindrical body is fixedly connected with the positioning seat, and the first cylindrical body can rotate relative to the positioning seat; the lower part of the second cylindrical body is fixedly connected with the other positioning seat, and the second cylindrical body can rotate relative to the positioning seat. It should be clear from reading this embodiment and referring to the drawings that the positioning seat only allows the first cylindrical body and the second cylindrical body to rotate about their own central axes, but does not allow the first cylindrical body and the second cylindrical body to yaw or translate or rotate about their own central axes.

The following illustrates a set of transmission actions: when the rotation stopping mechanism stops the rotation of the nail closing rod and allows the nail closing rod to move along the central axis of the rotation stopping mechanism, so that the nail closing rod moves forwards or backwards. Similarly, when the third chuck rotates forwards or reversely, the third transmission wheel rotates along with the third chuck, so that the first columnar body is driven to rotate, and the nail feeding rod is pushed to move forwards or backwards. In the process of forward movement of the nail feeding rod, the tissue clamp in the nail bin is pushed into the clamping jaw, and the nail closing rod draws the clamping jaw in and closes the clamping jaw when moving forward, so that the tissue clamp is closed.

As shown in fig. 8: the device body base comprises a base, a middle layer bracket and a top layer bracket, wherein the middle layer bracket and the top layer bracket are respectively and fixedly connected with the base; the third cylinder of the burst applicator clamp is rotatably connected to the base. In this embodiment, the structures rotatably coupled to each other are coupled using bearings. The first chuck, the second chuck and the third chuck of the instrument body base respectively extend out of the base, the first chuck, the second chuck and the third chuck are respectively connected with a plurality of brake discs or actuating motors of the surgical robot at corresponding positions, and when the brake discs or the actuating motors rotate forwards or backwards, the first chuck, the second chuck and the third chuck rotate forwards or backwards along with the brake discs or the actuating motors. The body base is provided with a clamping mechanism or other quick-release mechanism for detachably fixing with the surgical robot.

In some embodiments of the invention, the positioning seat is connected with the first cylindrical body and the second cylindrical body through bearings.

As shown in fig. 9: the inner side wall of the cavity is fixedly connected with the outer side wall of the second cylindrical body through a bearing. The inner diameter of the opening end of the cavity is expanded to form a platform, the outer diameter of the upper part of the second cylindrical body is reduced to form a platform, and a bearing is clamped between the inner platform of the cavity and the outer platform of the second cylindrical body.

As shown in fig. 4 and 9: the nail closing rod is sleeved outside the nail feeding rod, the body pipe is sleeved outside the nail closing rod, and the body pipe, the nail closing rod and the nail feeding rod are coaxially arranged. The nail feeding rod penetrates through the second cylindrical body and is connected with the first cylindrical body.

As shown in fig. 3 and 4: preferably, in some embodiments of the present invention, in order to further enhance the maneuverability of the clip applier, more physician manipulation actions are performed, and the technical solution is optimized: arranging a first transmission assembly and a third cylindrical body, wherein the first transmission assembly comprises a first chuck and a first transmission wheel, and the first chuck is fixedly connected with the first transmission wheel through a shaft; when the first chuck rotates, the first driving wheel rotates along with the first chuck. The lower part of the third cylindrical body is rotatably connected with the positioning seat, the third cylindrical body is fixedly connected with the body tube, and the third cylindrical body is connected with the first transmission wheel. When the first driving wheel rotates, the third cylindrical body is driven to rotate, and the body pipe follows up. Thereby realizing the autorotation of the body tube of the clip applier. The orientation of the clamping jaw is convenient to adjust. Preferably, the nail feeding rod and the nail closing rod penetrate through the third cylindrical body and are connected with the second cylindrical body and the first cylindrical body.

In the above embodiments, the "positioning seat" described is a fixing frame/seat structure with a positioning function connected to a structure to be positioned (e.g., a first column, a second column, a third column, etc.), and on the premise of satisfying compact and precise functions and structural layout, the "positioning seat" may be separate, respectively corresponding to the structure of the device to be positioned, and may also be an integrated positioning structure.

As shown in fig. 3: the outer side wall of the first columnar body is fixedly provided with a gear ring, the third transmission wheel is a transmission gear, and the gear ring is meshed with the transmission gear;

the outer side wall of the second cylindrical body is provided with a gear ring, the second driving wheel is a transmission gear, and the gear ring is meshed with the transmission gear. The outer side wall of the third columnar body is fixedly provided with a gear ring, the first driving wheel is a driving gear, and the gear ring is meshed with the driving gear.

As shown in fig. 4, preferably, the first column, the second column and the third column are coaxially arranged, and the nail closing rod and the nail feeding rod penetrate through a central hole of the third column and then extend into the second column and the first column.

As shown in fig. 5 and 6, preferably, the rotation stopping mechanism comprises a rotation stopping tube, the rotation stopping tube is fixedly connected with the body tube of the clip applier, and the side wall of the rotation stopping tube is provided with a first guide hole; the side wall of the nail closing rod is provided with a second guide hole corresponding to the first guide hole in position.

The nail feeding rod is fixedly connected with a limiting column, the limiting column is inserted into the first guide hole and the second guide hole, and when the nail feeding rod or the nail closing rod moves towards the front portion or the rear portion of the clip applier, the limiting column moves along the length direction of the first guide hole and the second guide hole. It should be understood from reading the present embodiment that the first guide hole and the second guide hole are holes having a certain length, such as long holes (waist-shaped holes) or other holes capable of limiting the deflection of the position-limiting column and allowing the position-limiting column to move in the length direction. The rotation stopping mechanism can prevent the nail feeding rod and the nail closing rod from rotating along with the rotation of the nail feeding driving sleeve and the nail closing driving sleeve in the rotation process.

As shown in fig. 1, 5 and 7, the clip applier comprises a body tube, a clamping jaw at one end of the body tube, a staple cartridge fixedly arranged in the body tube, a rotation stop tube fixedly arranged in the body tube, a staple feeding assembly for pushing a tissue clip to the clamping jaw, and a staple closing assembly for closing the clamping jaw.

The body tube and the nail closing rod are respectively of a hollow structure, the nail closing rod is inserted in the body tube, and the nail feeding rod is inserted in the nail closing rod.

The nail feeding assembly comprises a nail feeding rod and a nail feeding plate fixedly connected with the nail feeding rod.

As shown in fig. 10: the clamping jaw is hinged with the front part of the nail bin, and the tail part of the clamping jaw is provided with a closing spring which can provide closing force for the clamping jaw to close for a certain angle.

Referring to figures 5 and 7: the nail bin and the nail feeding plate are inserted into the nail closing pipe, and the nail feeding plate is connected with the nail bin; the front end of the nail feeding plate is provided with a nail pushing head used for pushing the tissue clamp, and when the nail feeding rod moves towards the front end or the rear end of the instrument, the nail feeding plate can move forwards/backwards along the length direction of the nail bin along with the nail feeding rod.

Referring to FIG. 5: preferably, close the nail subassembly including closing the nail pole, close the nail pole suit and send the outside of nail pole, close the front end of nail pole and close nail pipe fixed connection, close nail pipe suit outside the nail storehouse, the lateral wall of nail storehouse is provided with spacing arch, the lateral wall of closing the nail pipe is provided with the via hole, and spacing arch passes from the via hole, and the via hole allows spacing arch to pass through along the length direction of via hole is reciprocal. The via holes are kidney-shaped holes in this embodiment.

As shown in fig. 7, with reference to fig. 5 and 11: an opening spring used for keeping the clamping jaw in an opening state is connected to the nail feeding plate. The nail feeding plate is fixedly provided with a nail feeding elastic sheet, the nail bin is internally provided with a nail bin stopping elastic sheet, the nail feeding plate is connected with the nail bin to form a bin which extends along the length direction of the nail bin and can store the tissue clamp, and when the tissue clamp is positioned in the bin, the nail feeding elastic sheet and the nail bin stopping elastic sheet are respectively abutted against a positioning bulge part (also called as a tissue clamp cylinder) of the tissue clamp. The nail feeding elastic sheet and the nail bin backstop elastic sheet are arranged in pairs oppositely. The tissue clamps are sequentially arranged along the length direction of the nail bin, when the nail feeding rod moves forwards, the nail pushing head feeds the tissue clamp positioned at the forefront of the nail bin into the clamping jaw, and the nail feeding elastic sheet pushes the tissue clamp positioned at the back position forwards in the process. The tissue clamps are pushed to the clamping jaws one by one and closed, so that the aim of continuously applying the clamps is fulfilled. After the nail feeding is finished once, the nail feeding plate returns backwards, the nail feeding elastic sheet bounces off the tissue clamp under the elastic deformation of the nail feeding elastic sheet in the process, and the nail bin backstop elastic sheet abuts against the positioning bulge of the tissue clamp to prevent the tissue clamp from retreating along with the nail feeding elastic sheet. Before not sending the nail, the clamping jaw keeps opening, and the afterbody at the clamping jaw is held to the front end card of opening spring this moment, and opening spring moves forward along with sending the nail board, and until opening spring front end top to lean on the boss of clamping jaw afterbody, the couple that moves on the opening spring breaks away from with sending the actuating couple hole on the nail board, send the nail board to retreat the in-process, and it is downthehole to move the couple that moves on the nail board to move the couple once more, and opening spring returns along with sending the nail board, accomplishes and send the nail once. When the nail is closed, the nail closing pipe moves forwards until the nail closing pipe closes the clamping jaw collecting cage, and the nail closing is completed.

Referring to fig. 5, a guide fixing piece is fixedly arranged in the body tube, a fixing hole corresponding to the limiting protrusion is formed in the guide fixing piece, and the limiting protrusion penetrates through the through hole and is inserted into the fixing hole. The guide fixing piece is separated into two parts from the middle part, and the two parts are buckled to form a cylinder shape during assembly. A gap for reciprocating motion of the nail closing tube is preset between the guide fixing piece and the nail bin. The guide fixing piece is welded or clamped and fixed in the inner part of the transformer body tube.

Example 2

As shown in fig. 12, the present embodiment is optimized based on embodiment 1: the casing of ware body base includes the upper cover of being connected with base detachable, and the upper cover closes middle level support, top layer support lid in inside, and the upper cover is provided with the manual control mouth, manual control mouth detachable is connected with control mouth apron. The position of the manual control port corresponds to the positions of the second transmission wheel, the third transmission wheel and/or the first transmission wheel in the instrument body base.

Preferably, the control port cover plate is made of transparent materials. The control port cover plate is fixedly clamped with the manual control port.

When the accident with extremely low probability of the appliance meets the power loss of the artificial irresistible surgical robot system, the front-end manipulator appliance cannot act, and medical personnel can toggle the first driving wheel, the second driving wheel or the third driving wheel through the opening control port and the manual control port.

Referring to the drawings, several of the more typical clip application motions are illustrated below, and the present invention is not limited to a single motion among the numerous motions, but the following motions are merely exemplary.

In use, the first action is that the body tube rotates: the first chuck drives the first transmission wheel to rotate, the first transmission wheel is meshed with the third cylindrical body through a gear, the third cylindrical body is fixedly connected with the body tube through a pin, and the first chuck rotates to enable the body tube to rotate along the center shaft of the body tube.

And II, feeding clips: the third chuck is connected with a third driving wheel, the third driving wheel is meshed with a gear outside the first cylindrical body, a nail feeding driving sleeve (also called as a nail feeding nut) is fixed inside the third cylindrical body, and the nail feeding driving sleeve is matched with the screw thread of the nail feeding rod. The nail feeding rod is provided with a limiting column, and the limiting column slides in the strip hole of the rotation stopping pipe to prevent the nail feeding rod from rotating. The rotation stopping pipe is fixed in the body pipe through a buckle.

When the third chuck rotates under the driving of the actuating motor/actuating disc, the nail feeding driving sleeve correspondingly rotates, the screw threads push the nail feeding rod, the rotation motion is changed into linear motion, and the nail feeding rod moves forwards or backwards.

The head of the nail feeding rod is fixedly connected with the tail of the nail feeding plate, and the movement of the nail feeding rod is transferred to the nail feeding plate. The head of the staple feeding plate pushes the tissue gripper located in the ready-to-deliver position forward to the working position, at which time the gripper jaws are in an open state. Meanwhile, the nail feeding plate is provided with nail feeding elastic sheets which push a tissue clamp cylinder of a second tissue clamp (the tissue clamp positioned at the forefront part in the nail bin is the first tissue clamp, and the nth tissue clamp is sequentially arranged towards the back part to form the second tissue clamp … …).

Action three, closing the clamp: the second chuck is connected with a second driving wheel which is meshed with a gear outside the second cylindrical body, a nail closing driving sleeve (also called as a nail closing nut) is arranged inside the second cylindrical body, and the nail closing driving sleeve is matched with the screw thread of the nail closing rod. When the second chuck rotates under the drive of the actuating motor/actuating disc, the nail closing driving sleeve correspondingly rotates, the screw threads push the nail closing rod, the rotation motion is changed into linear motion, and the nail closing rod moves forwards along with the linear motion. The rotation stopping mechanism also prevents the nail closing rod from rotating. The head of the nail closing rod is fixedly connected with the tail of the nail closing pipe, and the movement of the nail closing rod is transferred to the nail closing pipe. The nail closing pipe is guided by the guide fixing piece which is fixed in the body pipe through a buckle. And when the nail closing pipe advances, the clamping jaws are pushed to be closed, and the nail closing is completed.

Action four, close the nail pole, send the nail pole to reset: (the related figure shows that the action III is used for closing the clamp), the second chuck rotates reversely (the reverse direction refers to the direction opposite to the direction of the closing nail action) under the driving of the motor, and the closing nail driving sleeve rotates reversely to drive the closing nail rod and the closing nail pipe to return to the original position.

The third chuck rotates reversely under the drive of the motor (the related figures show 'action two: feeding clamp'), the nail feeding driving sleeve rotates reversely, and the nail feeding rod is driven to return to the original position.

In the process that the nail feeding rod drives the nail pushing piece to return to the original position, the head of the nail feeding plate and the nail feeding elastic piece are pulled back, and the second tissue clamp completely returns to the position of preparing the nail bin and is clamped by the nail bin backstop elastic piece.

And fifthly, feeding and closing the nails again: after resetting is completed, feeding the nail again, closing the nail and performing action two: clip feeding and action three: the closed clamp is the same.

Example 3

This example was optimized on the basis of example 2 or 1: as shown in fig. 13 to 20, the shaft of the clip applier has flexible, bendable portions.

Further, the body tube comprises a front body tube and a rear body tube, and the front body tube and the rear body tube are connected through a plurality of joints. The guide fixing piece, the nail bin and the nail feeding plate are respectively connected with the front instrument body pipe, the rotation stopping pipe is connected with the rear instrument body pipe, and the instrument body base is connected with the rear instrument body pipe.

As shown in fig. 13, 16 and 18, a bending control spool and a wire fixing device are arranged in the body base, and the wire fixing device is fixedly connected with the middle layer bracket. The two bending control bobbins are fixedly connected with the fourth chuck and the fifth chuck respectively. Two wire ropes with opposite winding directions are fixed on the winding shaft grooves of each turning control spool respectively, the wire ropes enter the body tube through wire holes in the wire fixing device and reach the joints along the body tube and are fixedly connected with the wire rope holes of the joints, and when the turning control spools rotate under the driving of the chucks, the wire ropes drive the joints to turn. Further, two wire ropes on each turn control spool are grouped, and each group of wire ropes is connected with two wire rope holes opposite to each other at the joint.

In some embodiments of the present invention, two wires are disposed on each of the turning control spools, and the two wires are wound on the turning control spools in opposite directions, that is, when one turning control wire is rotated in one direction along the axis of the turning control spool, one of the two wires is wound along the winding shaft groove toward the turning control spool, and the other wire is gradually wound along the winding shaft groove outward from the turning control spool. After the wire rope is stretched into the body tube from the wire guide hole, the wire rope sequentially penetrates into the wire guide hole on the joint from the rear part of the turning section (the tube section where the joint on the body tube is located is called as the turning section) to the front part of the turning section and is finally fixed with the guide hole of the joint positioned at the forefront part of the turning section. Four wire rope holes are uniformly distributed on the circumference of each joint of the turning section, and two wire ropes on the same turning control spool are respectively connected with two wire rope holes positioned at the diagonal positions in the four wire rope holes, so that the turning of the turning section on one plane is realized.

Referring to figures 19 and 20 and 21: the front end of the nail closing rod is fixedly connected with the rear part of the nail closing pipe, and the front end of the nail feeding rod is fixedly connected with the nail feeding plate.

In some embodiments of the invention, the fixing is by welding.

As shown in fig. 18, further, joint bases for fixedly connecting joints are fixedly arranged at the end portions of the front body tube and the rear body tube, adjacent joints are fixedly connected through rotating shafts, two adjacent joints form a turning group, and the axes of the rotating shafts on the adjacent turning groups are perpendicular to each other. In this embodiment, the rotating shaft is a rivet, and adjacent joints can rotate around the rivet. The silk ropes sequentially pass through the silk rope holes in the joints from the back to the front, and the tail end of each silk rope is fixedly connected with the silk rope hole of the joint positioned at the foremost end.

As shown in the figure 19, furthermore, the nail feeding rod and the nail closing rod are respectively provided with a flexible part at the position of the joint. The nail feeding rod comprises a first straight rod part and a first snake rod part, and the front end of the nail feeding rod is provided with a front end head. The nail closing rod comprises a second straight rod part and a second snake rod part, and the front end of the nail closing rod is provided with a front end head. The inside fixedly connected with of sending the nail pole backs the taut rope, and the rear portion that backs the taut rope and send the inside fixed connection of nail pole, the front end card of backing the taut rope is put in the draw-in groove of sending the front end of nail pole. When the nail feeding rod moves backwards, the back tension rope can keep tension, and the first snake rod part is prevented from being stretched excessively in the process of backwards moving. When the bendable part bends, the returning tensioning rope generates elastic deformation and bends along with the bending action, and the returning tensioning rope recovers from the bending. The position of the back tensioning rope corresponds to the position of the first snake rod part. As shown in the figure, the nail bin, the nail feeding plate and the guide fixing plate are positioned in the inner part of the front body tube. When the clip applier is in an initial state, namely the clip jaws are opened, and the nail feeding rod and the nail closing rod are positioned at the rearmost part of the movement stroke, the rear end of the front end head of the nail feeding rod is abutted against the front end of the front end head of the nail closing rod, and the front end head of the backspacing tensioning rope is clamped on the front end head of the nail feeding rod.

The foregoing is a more detailed description of the invention in connection with specific preferred embodiments and it is not intended that the invention be limited to these specific details. For those skilled in the art to which the invention pertains, several simple deductions or substitutions can be made without departing from the spirit of the invention, and all shall be considered as belonging to the protection scope of the invention.

Claims

1. A continuous firing clamp that can turn for surgical robot, its characterized in that: comprises a device body base, a device body tube connected with the device body base, a nail feeding rod connected with the device body base and a nail closing rod connected with the device body base; a nail feeding rod moving mechanism for driving the nail feeding rod to move back and forth and a nail closing rod moving mechanism for driving the nail closing rod to move back and forth are arranged in the device body base;

the body base comprises two turning control bobbins and a wire fixing device;

the two bending control bobbins are respectively and fixedly connected with the fourth chuck and the fifth chuck, and when the fourth chuck and the fifth chuck rotate, the bending control bobbins connected with the fourth chuck and the fifth chuck rotate along with the fourth chuck and the fifth chuck;

a winding shaft groove is arranged on the turning control spool;

the body pipe comprises a front body pipe and a rear body pipe, and the front body pipe and the rear body pipe are connected through a joint;

2. A deflectable burst clip for a surgical robot as recited in claim 1, wherein: the nail feeding rod comprises a first straight rod part and a first snake rod part, and the front end of the nail feeding rod is provided with a front end head of the nail feeding rod; the nail closing rod comprises a second straight rod part and a second snake rod part, and the front end of the nail closing rod is provided with a front end of the nail closing rod; the inside fixedly connected with of sending the nail pole backs the taut rope, and the rear portion that backs the taut rope with send the inside fixedly connected of nail pole, the preceding end card of the taut rope that backs is put in the draw-in groove of sending the preceding end of nail pole, the position that backs the taut rope corresponds with first snake pole portion.

3. A deflectable burst clip for a surgical robot as recited in claim 1, wherein: the end parts of the front part instrument body pipe and the rear part instrument body pipe are respectively fixedly provided with a joint base which is fixedly connected with joints, adjacent joints are fixedly connected through a rotating shaft, two adjacent joints form a turning group, and the axes of the rotating shafts on the adjacent turning groups are mutually vertical; the silk ropes sequentially pass through the silk rope holes in the joints from the back to the front, and the tail end of each silk rope is fixedly connected with the silk rope hole of the joint positioned at the foremost end.

4. A deflectable burst clip for a surgical robot as recited in claim 1, wherein: the body base comprises a second transmission component, a third transmission component and a driving assembly;

5. A bendable burst clip for a surgical robot according to claim 4, characterized in that: the nail closing rod is sleeved outside the nail feeding rod, the body pipe is sleeved outside the nail closing rod, and the body pipe, the nail closing rod and the nail feeding rod are coaxially arranged;

6. A deflectable burst clip for a surgical robot as recited in claim 1, wherein: the transmission mechanism comprises a first transmission assembly and a third cylindrical body, wherein the first transmission assembly comprises a first chuck and a first transmission wheel, and the first chuck is fixedly connected with the first transmission wheel through a shaft; the lower part of the third cylindrical body is rotatably connected with the positioning seat, the third cylindrical body is fixedly connected with the instrument body tube, the third cylindrical body is connected with the first transmission wheel, and when the first transmission wheel rotates, the third cylindrical body rotates along with the first transmission wheel.

7. A deflectable burst applier jaw for a surgical robot according to claim 4, wherein: the outer side wall of the first columnar body is fixedly provided with a gear ring, the third transmission wheel is a transmission gear, and the gear ring is meshed with the transmission gear;

8. A bendable burst clip for a surgical robot according to claim 6, wherein: the outer side wall of the third columnar body is fixedly provided with a gear ring, the first driving wheel is a driving gear, and the gear ring is meshed with the driving gear.

9. A deflectable burst clip for a surgical robot as recited in claim 1, wherein: the device body base comprises a base, a middle layer bracket and a top layer bracket, wherein the middle layer bracket and the top layer bracket are respectively and fixedly connected with the base; the third columnar body of the repeating clip applier clamp is rotatably connected with the base; the first chuck, the second chuck and the third chuck of the instrument body base respectively extend out of the base.

10. A bendable burst clip for a surgical robot according to claim 4, characterized in that: the rotation stopping mechanism comprises a rotation stopping pipe, the rotation stopping pipe is fixedly connected with a body pipe of the clip applier, and a first guide hole is formed in the side wall of the rotation stopping pipe;

the nail feeding rod is fixedly connected with a limiting column, the limiting column is inserted into the first guide hole and the second guide hole, and when the nail feeding rod or the nail closing rod moves towards the front portion or the rear portion of the clamp, the limiting column moves along the length direction of the first guide hole and the second guide hole.

11. A deflectable burst clip for a surgical robot as recited in claim 1, wherein: the tissue clamp comprises clamping jaws positioned at one end of a body tube, a nail bin fixedly arranged in the front body tube, a rotation stopping tube fixedly arranged in the rear body tube, a nail feeding assembly used for pushing a tissue clamp to the clamping jaws and a nail closing assembly used for closing the clamping jaws;

and the nail feeding plate is connected with an opening spring.

12. A deflectable burst clip for a surgical robot as recited in claim 1, wherein: the nail closing rod in the nail closing assembly of the clip applier is sleeved outside the nail feeding rod, the front end of the nail closing rod is fixedly connected with the nail closing pipe, the nail closing pipe is sleeved outside the nail bin, the side wall of the nail bin is provided with a limiting bulge, the side wall of the nail closing pipe is provided with a through hole, the limiting bulge penetrates through the through hole, and the through hole allows the limiting bulge to pass through in a reciprocating mode along the length direction of the through hole.

13. A bendable burst clip for a surgical robot according to claim 3, characterized in that: two wire ropes with opposite winding directions are respectively fixed on a winding shaft groove of each turning control spool, the wire ropes enter the body tube through wire holes in the wire fixing device and reach the joints along the body tube and are fixedly connected with wire rope holes of the joints, and when the turning control spools are driven by the fourth chuck and the fifth chuck to rotate, the wire ropes drive the joints to turn; two wire ropes on each turning control spool are in a group, and each group of wire ropes is connected with two wire rope holes opposite to each other at the joint.