CN221460625U - Absorbable surgical suture needle pressing machine - Google Patents

Abstract

The utility model relates to the technical field of medical appliances, and discloses an absorbable surgical suture needle pressing machine which solves the problem that the conventional absorbable surgical suture needle pressing machine is inconvenient to press sutures with different thicknesses. The utility model can conveniently extrude the suture thread into the required thickness through the line pressing structure, the suture thread passes through the space between the third extruding wheel and the fourth extruding wheel when in use, the suture thread can be extruded and output through the fourth extruding wheel and the third extruding wheel, when the suture thread with different diameters is required to be extruded, the lower roll-over stand and the upper roll-over stand are driven to rotate by the second motor, the lower roll-over stand and the upper roll-over stand move the sixth extruding wheel and the first extruding wheel to the extruded position, then the extrusion operation can be repeated, and at the moment, the suture thread with different diameters can be output due to changing the inner diameter of the extruding wheel, the whole process does not need manual operation, the operation time is shorter, and the processing efficiency is not influenced.

Description

Absorbable surgical suture needle pressing machine

Technical Field

The utility model relates to the technical field of medical appliances, in particular to a needle pressing machine for absorbable surgical suture lines.

Background

The absorbable surgical suture is a medical material and is used for suturing wounds in operation to promote wound healing, and unlike the traditional non-absorbable suture, the absorbable surgical suture can be automatically degraded and absorbed by human body within a certain time without re-disconnecting after operation, so that secondary injury to the human body caused by re-disconnecting is prevented.

Chinese patent grant publication No. CN214966095U discloses a line pressing machine for absorbable suture line, which comprises a frame, frame upper end fixedly connected with backup pad, rotate through two first bearings in the backup pad and be connected with two bull sticks, two fixed cover has been cup jointed master gear and from the gear respectively on the bull stick pole wall, master gear and from the gear mesh mutually, the motor is installed to the frame upper end, the output of motor passes through the shaft coupling and is connected with one end of one of them bull stick, two all overlaps on the bull stick pole wall and is equipped with the line pressing wheel, annular line pressing groove has been seted up on the line pressing wheel, annular line pressing groove is semi-arc circular, line pressing wheel is last fixedly connected with sleeve pipe. The utility model can rapidly detach and install the wire pressing wheel, is convenient for replacing different wire pressing wheels, and is convenient for pressing the suture lines with different thicknesses by the annular wire pressing grooves with different sizes on different wire pressing wheels.

The prior art solutions described above have the following drawbacks: the wire pressing wheel is detached when the scheme adopted when the sutures with different thicknesses are needed to be pressed out, and the corresponding wire pressing wheel is replaced, but the operation process is more time-consuming, the efficiency is reduced due to the delay time, and in the replacement process, tools are needed to be used for disassembly and assembly, so that the operation is more troublesome.

Disclosure of utility model

The utility model aims to provide a needle pressing machine for absorbable surgical suture, which adopts the device to work, thereby solving the problem that the existing needle pressing machine for absorbable surgical suture is inconvenient to press sutures with different thicknesses.

In order to achieve the above purpose, the present utility model provides the following technical solutions: the utility model provides an absorbable surgical suture needle pressing machine, includes the processing platform, installs the blowing wheel in processing platform top one side to and install the rolling wheel at processing platform top opposite side, the line ball structure is installed on the top of processing platform, and the line ball structure sets up between blowing wheel and rolling wheel, and the line ball structure is including fixing the support frame in processing platform top both sides, fixes the inside motor mount at the support frame, and swing joint goes up the roll-over stand between the support frame, swing joint down the roll-over stand between the support frame, goes up the roll-over stand setting in the top of roll-over stand, and the one end of going up the roll-over stand is fixed with the upset gear, and the inside swing joint of going up the roll-over stand has first extrusion wheel, goes up the inside swing joint of roll-over stand has the second extrusion wheel, and goes up the inside swing joint of roll-over stand has the third extrusion wheel, and first extrusion wheel, second extrusion wheel and third extrusion wheel's outside both ends all are fixed with the tooth, and the inside swing joint of roll-over stand has the fourth extrusion wheel down, the inside swing joint of fifth swing joint has the fourth extrusion wheel, the fourth extrusion wheel and the fourth extrusion wheel is also fixed with the fourth extrusion wheel.

Further, the upper turning gear is in meshed connection with the lower turning gear.

Further, the inner diameters of the first extruding wheel and the sixth extruding wheel are equal, the inner diameters of the second extruding wheel and the fifth extruding wheel are equal, and the inner diameters of the third extruding wheel and the fourth extruding wheel are equal.

Further, when the first material extruding wheel is tightly attached to the sixth material extruding wheel, the first material extruding wheel is in meshed connection with the sixth material extruding wheel through teeth, when the second material extruding wheel is tightly attached to the fifth material extruding wheel, the second material extruding wheel is in meshed connection with the fifth material extruding wheel through teeth, and when the third material extruding wheel is tightly attached to the fourth material extruding wheel, the third material extruding wheel is in meshed connection with the fourth material extruding wheel through teeth.

Further, the line ball structure still includes the first motor of fixing in motor mount inside, fixes the second motor in support frame one end, and the output shaft of first motor is fixed with first output gear, and the output shaft of second motor is fixed with second output gear.

Further, the lower part of the first output gear is connected with the extrusion gear in a meshed manner.

Further, one side of the second output gear is in meshed connection with the lower turning gear.

Further, the upper roll-over stand forms a roll-over structure between the support frames, and the lower roll-over stand forms a roll-over structure between the support frames.

Compared with the prior art, the utility model has the following beneficial effects:

The needle pressing machine for the absorbable surgical suture, provided by the utility model, is inconvenient for pressing out sutures with different thicknesses; the utility model can conveniently extrude the suture thread into the required thickness through the thread pressing structure, the suture thread passes through the space between the third extruding wheel and the fourth extruding wheel when in use, the suture thread can be extruded and output through the fourth extruding wheel and the third extruding wheel, when the suture thread with different diameters is required to be extruded, the lower roll-over stand and the upper roll-over stand are driven to rotate by the second motor, the lower roll-over stand and the upper roll-over stand move the sixth extruding wheel and the first extruding wheel to the extruded position, then the extrusion operation can be repeated, and at the moment, the suture thread with different diameters can be output due to changing the inner diameter of the extruding wheel, the whole process does not need manual operation, the operation time is shorter, and the processing efficiency is not influenced.

Drawings

FIG. 1 is a schematic diagram of the overall structure of the present utility model;

FIG. 2 is a schematic diagram of the whole structure of the present utility model;

FIG. 3 is a schematic diagram of the overall structure of the wire pressing structure of the present utility model;

FIG. 4 is a schematic diagram of an internal structure of a wire pressing structure according to the present utility model;

Fig. 5 is a schematic diagram of an internal structure of the wire pressing structure of the present utility model.

In the figure: 1. a processing table; 2. a discharging wheel; 3. a wire pressing structure; 31. a support frame; 311. a motor fixing frame; 32. an upper roll-over stand; 321. an upper overturning gear; 322. a first extrusion wheel; 323. a second extrusion wheel; 324. a third extrusion wheel; 33. a lower roll-over stand; 331. a lower turnover gear; 332. a fourth extruding wheel; 333. a fifth extruding wheel; 334. a sixth extruding wheel; 335. a material extruding gear; 34. a first motor; 341. a first output gear; 35. teeth; 36. a second motor; 361. a second output gear; 4. and a winding wheel.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

For a further understanding of the present utility model, the present utility model will be described in detail with reference to the drawings.

Referring to fig. 1 and 2, an absorbable surgical suture needle pressing machine comprises a processing table 1, a discharging wheel 2 arranged on one side of the top end of the processing table 1, and a winding wheel 4 arranged on the other side of the top end of the processing table 1, wherein a pressing line structure 3 is arranged on the top end of the processing table 1, and the pressing line structure 3 is arranged between the discharging wheel 2 and the winding wheel 4.

Specifically, the blowing wheel 2 that will twine the suture that waits to extrude is fixed on the top of processing platform 1 when using, then pulls out the suture and pass the inside of line ball structure 3, twines in the reel 4 inside then, and line ball structure 3 extrudees the suture into required diameter this moment, and reel 4 carries out the rolling to the suture after the extrusion.

The utility model is further described below with reference to examples.

Example 1:

Referring to fig. 3 to 5, the wire pressing structure 3 includes a supporting frame 31 fixed at both sides of the top end of the processing table 1, a motor fixing frame 311 fixed inside the supporting frame 31, an upper roll-over stand 32 movably connected between the supporting frames 31, a lower roll-over stand 33 movably connected between the supporting frames 31, the upper roll-over stand 32 being disposed above the lower roll-over stand 33, one end of the upper roll-over stand 32 being fixed with an upper roll-over gear 321, the inside of the upper roll-over stand 32 being movably connected with a first extrusion wheel 322, the inside of the upper roll-over stand 32 being movably connected with a second extrusion wheel 323, the inside of the upper roll-over stand 32 being movably connected with a third extrusion wheel 324, teeth 35 being fixed at both outer ends of the first extrusion wheel 322, the second extrusion wheel 323 and the third extrusion wheel 324, one end of the lower roll-over stand 33 being fixed with a lower roll-over gear 331, the inside of the lower roll-over stand 33 being movably connected with a fourth extrusion wheel 332, the inside of the lower roll-over stand 33 being movably connected with a fifth extrusion wheel 333, the lower turnover frame 33 is internally and movably connected with a sixth extrusion wheel 334, teeth 35 are also fixed at the outer two ends of the fourth extrusion wheel 332, the fifth extrusion wheel 333 and the sixth extrusion wheel 334, extrusion gears 335 are fixed at one ends of the fourth extrusion wheel 332, the fifth extrusion wheel 333 and the sixth extrusion wheel 334, the upper turnover gear 321 is meshed with the lower turnover gear 331, the inner diameters of the first extrusion wheel 322 and the sixth extrusion wheel 334 are equal, the inner diameters of the second extrusion wheel 323 and the fifth extrusion wheel 333 are equal, the inner diameters of the third extrusion wheel 324 and the fourth extrusion wheel 332 are equal, the first extrusion wheel 322 is meshed with the sixth extrusion wheel 334 through the teeth 35 when the first extrusion wheel 322 and the sixth extrusion wheel 334 are tightly attached, the second extrusion wheel 323 is meshed with the fifth extrusion wheel 333 through the teeth 35 when the second extrusion wheel 323 and the fifth extrusion wheel 333 are tightly attached, when the third extruding wheel 324 is tightly attached to the fourth extruding wheel 332, the third extruding wheel 324 is in meshed connection with the fourth extruding wheel 332 through the teeth 35, the line pressing structure 3 further comprises a first motor 34 fixed inside the motor fixing frame 311, a second motor 36 fixed at one end of the supporting frame 31, a first output gear 341 is fixed on an output shaft of the first motor 34, a second output gear 361 is fixed on an output shaft of the second motor 36, the lower part of the first output gear 341 is in meshed connection with the extruding gear 335, one side of the second output gear 361 is in meshed connection with the lower overturning gear 331, the upper overturning frame 32 forms an overturning structure between the supporting frames 31, and the lower overturning frame 33 forms an overturning structure between the supporting frames 31.

Specifically, pass the suture thread between third extrusion wheel 324 and fourth extrusion wheel 332 when using, start first motor 34 and drive first output gear 341 rotation this moment, first output gear 341 drives fourth extrusion wheel 332 rotation through extrusion gear 335, fourth extrusion wheel 332 drives third extrusion wheel 324 through tooth 35 and rotates in opposite direction, fourth extrusion wheel 332 and third extrusion wheel 324 can extrude the suture thread and export this moment, when the suture thread of different diameters needs to be extruded, start second motor 36 and drive second output gear 361 rotation, second output gear 361 drives down upset gear 331 rotation, upset gear 331 drives down upset frame 33 rotation down, lower upset frame 33 drives sixth extrusion wheel 334 and moves to the extruded position, the extrusion gear 335 of fourth extrusion wheel 332 one end and first output gear 341 separation this moment, simultaneously mesh between fourth extrusion wheel 332 and the third extrusion wheel 324 is removed to the extrusion gear 335, upset gear 321 drives up the upper direction and drives upper end gear 331 and rotate, the upset frame 33 rotates, the inside diameter is changed to the extrusion wheel 322 is not to the inside diameter is changed to the contrary in the extrusion wheel 322, the operation is rotatable, the operation is changed to the inside diameter is changed to the lower upset gear 334, the operation is required to the inside diameter is changed to the extrusion wheel is changed to the inside diameter is not changed to the extrusion frame 32.

It is noted that relational terms such as first and second, and the like are used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Moreover, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

Although embodiments of the present utility model have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made therein without departing from the principles and spirit of the utility model, the scope of which is defined in the appended claims and their equivalents.

Claims (8)

1. The utility model provides an absorbable surgical suture needle pressing machine, includes processing platform (1), installs blowing wheel (2) on one side of processing platform (1) top to and install rolling wheel (4) on the opposite side of processing platform (1) top, its characterized in that: the top end of the processing table (1) is provided with a wire pressing structure (3), and the wire pressing structure (3) is arranged between the discharging wheel (2) and the winding wheel (4);

the wire pressing structure (3) comprises supporting frames (31) fixed on two sides of the top end of the processing table (1), motor fixing frames (311) fixed inside the supporting frames (31), upper turnover frames (32) movably connected between the supporting frames (31), lower turnover frames (33) movably connected between the supporting frames (31), and the upper turnover frames (32) are arranged above the lower turnover frames (33);

an upper overturning gear (321) is fixed at one end of the upper overturning frame (32), a first extruding wheel (322) is movably connected inside the upper overturning frame (32), a second extruding wheel (323) is movably connected inside the upper overturning frame (32), a third extruding wheel (324) is movably connected inside the upper overturning frame (32), and teeth (35) are fixed at two ends of the outer sides of the first extruding wheel (322), the second extruding wheel (323) and the third extruding wheel (324);

One end of lower roll-over stand (33) is fixed with upset gear (331) down, the inside swing joint of lower roll-over stand (33) has fourth crowded material wheel (332), the inside swing joint of lower roll-over stand (33) has fifth crowded material wheel (333), the inside swing joint of lower roll-over stand (33) has sixth crowded material wheel (334), the outside both ends of fourth crowded material wheel (332), fifth crowded material wheel (333) and sixth crowded material wheel (334) also are fixed with tooth (35), and the one end of fourth crowded material wheel (332), fifth crowded material wheel (333) and sixth crowded material wheel (334) all is fixed with crowded material gear (335).

2. A needle pressing machine for absorbable surgical suture as claimed in claim 1, wherein: the upper turnover gear (321) is connected with the lower turnover gear (331) in a meshed mode.

3. A needle pressing machine for absorbable surgical suture as claimed in claim 1, wherein: the first extruding wheel (322) and the sixth extruding wheel (334) have the same inner diameter, the second extruding wheel (323) and the fifth extruding wheel (333) have the same inner diameter, and the third extruding wheel (324) and the fourth extruding wheel (332) have the same inner diameter.

4. A needle pressing machine for absorbable surgical suture as claimed in claim 3, wherein: the first extrusion wheel (322) is connected with the sixth extrusion wheel (334) in an engaged mode through teeth (35) when the first extrusion wheel (322) is tightly attached to the sixth extrusion wheel (334), the second extrusion wheel (323) is connected with the fifth extrusion wheel (333) in an engaged mode through teeth (35) when the second extrusion wheel (323) is tightly attached to the fifth extrusion wheel (333), and the third extrusion wheel (324) is connected with the fourth extrusion wheel (332) in an engaged mode through teeth (35) when the third extrusion wheel (324) is tightly attached to the fourth extrusion wheel (332).

5. A needle pressing machine for absorbable surgical suture as claimed in claim 1, wherein: the wire pressing structure (3) further comprises a first motor (34) fixed inside the motor fixing frame (311), a second motor (36) fixed at one end of the supporting frame (31), a first output gear (341) is fixed on an output shaft of the first motor (34), and a second output gear (361) is fixed on an output shaft of the second motor (36).

6. The absorbable surgical suture needle pressing machine as claimed in claim 5, wherein: the lower part of the first output gear (341) is meshed with the extrusion gear (335).

7. The absorbable surgical suture needle pressing machine as claimed in claim 5, wherein: one side of the second output gear (361) is meshed with the lower turning gear (331).

8. A needle pressing machine for absorbable surgical suture as claimed in claim 1, wherein: the upper turnover frame (32) forms a turnover structure between the support frames (31), and the lower turnover frame (33) forms a turnover structure between the support frames (31).