JP6740511B1 - Medical stainless steel wire winding device - Google Patents

Abstract

PROBLEM TO BE SOLVED: To disclose a stainless steel wire winding device for medical use. The apparatus includes a body and an operation chamber installed in the body, and a winding device is installed in the operation chamber, and the winding device is installed in the operation chamber so as to be rotatable. The medical stainless steel wire winding device provided by the present invention, which includes a rotating rack, can automatically wind a stainless steel wire on a winding shaft, and simultaneously winds the stainless steel wire to move the winding shaft up and down. , The winding can be more uniform, the equipment can automatically cut the steel wire, at the same time, the equipment can automatically transport the steel wire, convenient and efficient, and some of the equipment can send the finished product. The equipment is installed, and the wound reel can be sent to the outside of the equipment. It has a high degree of automation and is worth spreading. [Selection diagram] Figure 1

Description

The present invention deals with the field of medical machine manufacturing, and specifically is a medical stainless steel wire winding device.

Medical stainless steel wire has excellent durability and corrosion resistance, and because metal ions do not precipitate at all, it is mainly used in the manufacture of medical machines and tableware, and there are many problems when processing medical stainless steel wire. There is a problem, especially when winding stainless steel wire for medical use, because the winding is always uneven, the phenomenon that the passing rate of the product is low occurs, and the conventional winding equipment has a low degree of automation and winding. There is sometimes a need for human cooperation, where it is necessary to design a medical stainless steel wire retractor to remedy the above problems.

Chinese Patent Application Publication No. 107413846

It is an object of the present invention to provide a stainless steel wire winding device for medical use, to solve the above-mentioned drawbacks in the prior art and to enhance the practicality of equipment.

The technical plan adopted by the present invention to solve the technical problem is as follows: The medical stainless steel wire winding device of the present invention includes a body and an operating chamber installed in the body. A winding device is installed therein, and the winding device includes a carousel rotatably installed in the operation chamber, and a winder having an upward opening is provided in a top wall of the carousel. A chamber is installed, a transmission chamber is installed in a bottom wall of the winding chamber, a pulling chamber is installed in an end wall of the transmission chamber, and a pulling chamber is provided between the pulling chamber and the winding chamber. Is installed so that the first spline sleeve can rotate, the first spline shaft is connected by a spline in the first spline sleeve, and the first spline shaft moves up and down simultaneously with the rotation of the first spline sleeve. This enables the winding of stainless steel wire,
A communication groove communicating with the outside is installed in the right end wall of the operation chamber, and a steel wire transport device for transporting stainless steel wire to the winding device is installed in the communication groove. The transportation device includes a slidable guide rod installed in the communication groove, a steel wire through-hole is installed in the guide rod, and the steel wire through-hole has only one direction in upper and lower end walls. Rollers that can be rotated are symmetrically installed, and the steel wire transporting device provides convenience in transporting the steel wire by utilizing that the roller can rotate only in one direction,
A steel wire cutting device capable of cutting a stainless steel wire is installed in the bottom wall of the steel wire transportation device, and the steel wire cutting device is interlocked to cut the steel wire when the rotary rack rotates a half turn, When the carousel rotates once, the steel wire transporting device is interlocked to transport the steel wire,
A finished product feeding device for transporting the rolled up finished product is installed in the bottom wall of the operation chamber, and the rotating rack rotates to interlock the rolled up finished product into the finished product feeding device. Dropping on the installed transmission belt and sending it out of the equipment, a slide chamber is installed in the left end wall of the operation chamber, and a switching device capable of switching power is installed in the slide chamber. The finished product feeding device rotates to operate the switching device in conjunction with each other, thereby switching the driving power between the winding device and the rotary rack.

Preferably, the winding device also includes a pulling rack rotatably connected to the bottom wall of the first spline shaft, and the pulling rack is provided with left and right elongated holes. A first rotating shaft penetrating the transmission chamber is rotatably installed on the left side of the pulling chamber, and a rotary rod is fixedly installed at an end of the first rotating shaft in the pulling chamber. The right end wall of the rotary rod is fixedly installed with a limit block slidably installed in the elongated hole, and a first bevel gear is installed on an outer surface of the first rotary shaft in the transmission chamber. A second bevel gear fixedly installed is fixedly installed on an outer surface of the first spline sleeve, and a second bevel gear meshing with the first bevel gear is fixedly installed, and a second spline sleeve is fixed to a left end of the first rotating shaft. Is installed on the outer surface of the first spline shaft is fixedly installed so as to be slidable into the winding chamber, the top of the first spline shaft penetrates left and right. And a first slide hole having openings facing each other is installed in upper and lower end walls of the sandwich hole, and a first slide rod is slidably installed in the first slide hole. A first spring is elastically installed between the first slide rod and the end wall of the first slide hole, and a hole is installed in the right end wall of the winding chamber. It was

Preferably, the steel wire transport device also includes elastic chambers symmetrically installed in the upper and lower end walls of the steel wire through hole, and a sandwiching block is slidably installed in the elastic chambers. A second spring is installed so as to have elasticity between the sandwiching block and the end wall of the elastic chamber, a roller chamber is installed in the sandwiching block, and a roller chamber is installed in the left and right end walls of the roller chamber. A ratchet pawl chamber is installed, a second rotary shaft is installed between the left and right ratchet pawl chambers so as to be rotatable, and the ratchet pawl is installed at an end of the second rotary shaft in the ratchet pawl chamber. A ratchet gear cooperating with the chamber is fixedly installed, the roller is fixedly installed on the outer surface of the second rotating shaft in the roller chamber, and between the guide rod and the top wall of the communication groove. A first return device is installed to have elasticity, a gear chamber is installed in the bottom wall of the communication groove, and a third rotation shaft is installed in the gear chamber so as to rotate. A sector gear, which meshes with a first rack fixedly installed on the bottom wall of the guide rod, and a worm wheel, which is located in front of the sector gear, are fixedly installed on the outer surface of the three rotation shaft. ..

Preferably, the steel wire cutting device includes a cam chamber, an obstruction block is slidably installed in the cam chamber, and a guide slide hole communicating with the communication groove is provided in a top wall of the cam chamber. A cutting knife is slidably installed in the guide slide hole, and a third spring is elastically installed between the blocking block and the top wall of the cam chamber. A meshing chamber is installed in the right end wall, and a fourth rotating shaft fixedly connected to the rotary rack is rotatably installed between the meshing chamber and the cam chamber. A cam is fixedly installed on the outer surface of the fourth rotating shaft, and a third bevel gear is fixedly installed on the end of the fourth rotating shaft in the meshing chamber.

Preferably, a lock chamber is installed between the meshing chamber and the gear chamber, and a worm meshing with the worm wheel is rotatably installed between the lock chamber and the meshing chamber. A lock gear is fixedly installed on the outer surface of the worm in the chamber, a fifth rotating shaft is installed in the top wall of the meshing chamber so as to be rotatable, and a fifth rotating shaft is installed at the end of the fifth rotating shaft. A fourth bevel gear meshing with the third bevel gear is fixedly installed, and a torsion spring is elastically installed between the worm and the fifth rotating shaft, and is installed in the right end wall of the cam chamber. Has a second slide hole, a second rack is slidably installed in the second slide hole, and a third slide hole is installed in a left end wall of the lock chamber. A third rack is slidably installed in the three slide holes, and a second return device is elastically installed between the third rack and the top wall of the third slide hole. An empty chamber is installed between the second slide hole and the third slide hole, and a first gear meshing with the second rack and the third rack is installed in the empty chamber so as to be rotatable. It was

Preferably, the finished product feeder includes a rearward-opening transmission chamber installed in the body, a belt chamber is installed in a left end wall of the transmission chamber, and a transfer chamber is installed in the transmission chamber. A longitudinally symmetrical sixth rotary shaft is installed so as to be slidable, a transmission wheel is fixedly installed on an outer surface of the sixth rotary shaft in the transmission chamber, and the transmission between the front and rear two transmission wheels is performed. A front end of the sixth rotary shaft extends into the belt chamber, and a first pulley is fixedly installed at the front end of the sixth rotary shaft. A ratchet gear device is installed between the first pulley and the transmission wheel, and a take-up trough feed passage that penetrates the body is installed in the top wall of the transmission chamber.

Preferably, the switching device includes a slide rack slidably installed in the slide chamber, and a threaded hole penetrating left and right is installed in the slide rack. A thread rod is connected by a thread therein, and a left end of the thread rod is connected for power transmission with a first motor fixedly installed in a left end wall of the belt chamber, A second motor is fixedly installed in the slide rack, a second spline shaft is fixedly connected to a right end of the main shaft of the second motor, and a left end of the main shaft of the second motor is fixed to the second end. A second gear is fixedly mounted, and a seventh rotation shaft fixedly connected to the rotary rack is rotatably installed between the slide chamber and the operation chamber. A third gear is fixedly installed at the end of the seventh rotating shaft, and a second pulley is fixedly installed at the end of the seventh rotating shaft in the belt chamber. A belt was connected between the first pulley and the first pulley so as to be able to be transmitted.

Preferably, a plurality of take-up tubs are slidably installed in the take-up tub feed passage, a pipe penetrating vertically is installed in the take-up tub, and the right side of the pipe is provided. A hole with a steel wire was installed in the end wall.

The beneficial effects of the present invention are: The medical-use stainless steel wire winding device provided by the present invention can automatically wind the stainless steel wire around the winding shaft, and at the same time, the winding shaft is interlocked to move up and down. , The winding can be more uniform, the equipment can automatically cut the steel wire, at the same time, the equipment can automatically transport the steel wire, convenient and efficient, and some of the equipment can send the finished product. The equipment is installed, and the wound reel can be sent to the outside of the equipment. It has a high degree of automation and is worth spreading.

In order to explain the present invention in detail in conjunction with FIGS. 1 to 7 below and for convenience of explanation, the following directions are defined as follows: FIG. 1 is a front view of the device of the present invention, and The left, right, front, and rear directions and the top, bottom, left, right, front, and rear directions of the self-projection relationship in FIG.

FIG. 1 is a schematic diagram of the entire configuration of a medical stainless steel wire winding device of the present invention. FIG. 2 is an enlarged schematic diagram of A in FIG. FIG. 3 is an enlarged schematic diagram of B in FIG. FIG. 4 is an enlarged schematic diagram of C in FIG. FIG. 5 is a schematic diagram of the configuration of DD in FIG. FIG. 6 is a schematic diagram of the configuration of EE in FIG. FIG. 7 is a schematic diagram of the configuration of FF in FIG.

1 to 7, a medical stainless steel wire winding device according to the present invention includes a body 10 and an operation chamber 26 installed in the body 10. A take-up device 200 is installed, and the take-up device 200 includes a carousel 24 rotatably installed in the operation chamber 26, and a take-up device having an upper opening in a top wall of the carousel 24. A chamber 15 is installed, a transmission chamber 27 is installed in a bottom wall of the winding chamber 15, and a lifting chamber 25 is installed in an end wall of the transmission chamber 27. A first spline sleeve 44 is rotatably installed between the taking chamber 15 and a first spline shaft 50 is connected to the first spline sleeve 44 by a spline. Simultaneously moves up and down with the rotation of the first spline sleeve 44, thereby realizing winding of the stainless steel wire,
A communication groove 17 communicating with the outside is installed in the right end wall of the operation chamber 26, and a steel wire transport device 300 for transporting stainless steel wire to the winding device 200 is installed in the communication groove 17. The steel wire transporting device 300 includes a slidable guide rod 73 installed in the communication groove 17, and a steel wire through hole 99 is installed in the guide rod 73. Rollers 78 that can rotate only in one direction are symmetrically installed in the upper and lower walls of the upper and lower walls, and the steel wire transport device 300 transports the steel wire by utilizing that the rollers 78 can rotate only in one direction. Give convenience to
A steel wire cutting device 400 capable of cutting a stainless steel wire is installed in the bottom wall of the steel wire transportation device 300, and the steel wire cutting device 400 is interlocked with the steel wire cutting device 400 when the rotary rack 24 makes a half rotation. When the steel rack is cut, the steel wire transporting device 300 is interlocked to transport the steel wire when the rotary rack 24 rotates once,
A finished product feeding device 500 for transporting the rolled finished product is installed in the bottom wall of the operation chamber 26, and the rotary rack 24 rotates to interlock the rolled finished product with the finished product feeding device. 500 is dropped on a transmission belt 81 installed in 500 and sent out of the equipment. A slide chamber 43 is installed in the left end wall of the operation chamber 26, and power is switched in the slide chamber 43. A switching device 600 capable of performing the above is installed, and the finished product feeding device 500 rotates to operate the switching device 600 in conjunction with each other, thereby switching the driving power between the winding device 200 and the rotary rack 24. ..

Beneficially, the take-up device 200 also includes a pulling rack 86 rotatably connected to the bottom of the first spline shaft 50, the pulling rack 86 having a long hole extending left and right therethrough. 85 is installed on the left side of the pull-up chamber 25, and the first rotary shaft 23 penetrating the transmission chamber 27 is rotatably installed at the end of the first rotary shaft 23 in the pull-up chamber 25. A rotary rod 84 is fixedly installed in the transmission chamber 27, and a limit block 90 slidably installed in the elongated hole 85 is fixedly installed in the right end wall of the rotary rod 84. A first bevel gear 28 is fixedly installed on the outer surface of the first rotating shaft 23, and a second bevel gear 42 meshing with the first bevel gear 28 is fixedly installed on the outer surface of the first spline sleeve 44. The second spline sleeve 22 is fixedly installed on the left end of the first rotating shaft 23, and is installed on the outer surface of the first spline shaft 50 so as to be slidable into the winding chamber 15. A baffle plate 45 is fixedly installed, and a holding hole 46 penetrating left and right is installed at the top of the first spline shaft 50, and openings are faced in upper and lower end walls of the holding hole 46. A first slide hole 49 is installed, a first slide rod 47 is installed in the first slide hole 49 so as to be slidable, and the first slide rod 47 and the end wall of the first slide hole 49 are connected to each other. A first spring 48 is elastically installed in between, and a vent hole 16 is installed in the right end wall of the winding chamber 15.

Beneficially, the steel wire transportation device 300 also includes elastic chambers 75 symmetrically installed in the upper and lower end walls of the steel wire through hole 99, in which a clamping block 76 is provided. A second spring 74 is installed so as to be slidable between the holding block 76 and an end wall of the elastic chamber 75, and a roller chamber 77 is installed in the holding block 76. A ratchet pawl chamber 89 is installed in the left and right end walls of the roller chamber 77, and a second rotation shaft 87 is rotatably installed between the left and right ratchet pawl chambers 89. A ratchet gear 88 cooperating with the ratchet pawl chamber 89 is fixedly installed at the end of the second rotating shaft 87 in the chamber 89, and the roller 78 is the second rotating shaft in the roller chamber 77. 87 is fixedly installed on the outer surface of 87, and a first restoring device 91 is elastically installed between the guide rod 73 and the top wall of the communication groove 17, and A gear chamber 20 is installed in the gear chamber 20, and a third rotating shaft 18 is installed in the gear chamber 20 so as to be rotatable. An outer surface of the third rotating shaft 18 is fixed to a bottom wall of the guide rod 71. The sector gear 21 meshing with the installed first rack 92 and the worm wheel 19 located on the front side of the sector gear 21 are fixedly installed.

Beneficially, the steel wire cutting device 400 includes a cam chamber 57 in which a blocking block 54 is slidably installed, and the communication groove 17 is provided in a top wall of the cam chamber 57. A guide slide hole 52 that is in communication is installed, a cutting knife 51 is installed in the guide slide hole 52 so that the cutting knife 51 can slide, and a third slide is provided between the blocking block 54 and the top wall of the cam chamber 57. A spring 53 is installed so as to have elasticity, a meshing chamber 60 is installed in the right end wall of the cam chamber 57, and the rotary rack 24 is fixed between the meshing chamber 60 and the cam chamber 57. The connected fourth rotating shaft 55 is rotatably installed, and the cam 56 is fixedly installed on the outer surface of the fourth rotating shaft 55 in the cam chamber 57. A third bevel gear 61 is fixedly installed at the end of the four rotation shaft 55.

Beneficially, a lock chamber 69 is installed between the mesh chamber 60 and the gear chamber 20, and a worm 68 meshing with the worm wheel 19 is provided between the lock chamber 69 and the mesh chamber 60. A lock gear 67 is fixedly installed on the outer surface of the worm 68 in the lock chamber 69 so that the fifth rotation shaft 63 can rotate in the top wall of the engagement chamber 60. And a fourth bevel gear 62, which meshes with the third bevel gear 61, is fixedly installed at the end of the fifth rotating shaft 63, and a twist is provided between the worm 68 and the fifth rotating shaft 63. A spring 64 is installed to have elasticity, a second slide hole 59 is installed in the right end wall of the cam chamber 57, and a second rack 58 can be slid in the second slide hole 59. A third slide hole 70 is installed in the left end wall of the lock chamber 69, and a third rack 72 is slidably installed in the third slide hole 70. A second return device 71 is elastically installed between 72 and the top wall of the third slide hole 70, and an empty chamber is provided between the second slide hole 59 and the third slide hole 70. In the empty chamber 65, a first gear 66 meshing with the second rack 58 and the third rack 72 is rotatably installed.

Beneficially, the finished product feeder 500 includes a rearward opening transmission chamber 82 installed in the body 10, and a belt chamber 32 is installed in a left end wall of the transmission chamber 82. A longitudinally symmetrical sixth rotating shaft 29 is slidably installed in the transmission chamber 82, and a transmission wheel 80 is fixedly installed on an outer surface of the sixth rotating shaft 29 in the transmission chamber 82. , The front and rear two transmission wheels 80 are connected by a transmission belt 81 so that they can be transmitted, and the end of the sixth rotation shaft 29 on the front side extends into the belt chamber 32, and A first pulley 31 is fixedly installed at the end of the six rotation shaft 29, a ratchet gear device 95 is installed between the first pulley 31 and the transmission wheel 80, and a ratchet gear device 95 is installed between the first pulley 31 and the transmission wheel 80. A winding trough feed passage 11 penetrating the body 10 was installed therein.

Advantageously, the switching device 600 includes a slide rack 35 slidably installed in the slide chamber 43, and a left and right threaded hole 39 is installed in the slide rack 35. A thread rod 40 is connected to the thread hole 39 by a thread, and the left end of the thread rod 40 is fixedly installed in the left end wall of the belt chamber 32. A second motor 34 is fixedly installed in the slide rack 35 so as to be capable of transmitting power to the motor 41, and a second spline shaft 33 is fixed to the right end of the main shaft of the second motor 34. Second gear 93 is fixedly attached to the left end of the main shaft of the second motor 34, and is fixed to the rotary rack 24 between the slide chamber 43 and the operation chamber 26. The connected seventh rotating shaft 36 is rotatably installed, and the third gear 37 is fixedly installed at the end of the seventh rotating shaft 36 in the slide chamber 43. A second pulley 38 is fixedly installed at the end of the seventh rotary shaft 36, and the second pulley 38 and the first pulley 31 are connected by a belt 30 so as to be transmitted.

Beneficially, a plurality of take-up tubs 12 are slidably installed in the take-up tub feed passage 11, and pipes 13 vertically passing through the take-up tub 12 are installed in the take-up tub 12. The steel wire-containing hole 14 was installed in the right end wall of the pipe 13.

The fixed connection method of the present embodiment includes, but is not limited to, methods such as bolt fixing and welding.

The order of machine operation of the entire device is:

1. The take-up trough 12 is placed in the take-up trough feed passage 11 as shown in the figure, and at this time, the second motor 34 is started and rotated, thereby interlocking the second spline shaft 33. The second spline sleeve 22 is rotated in association therewith, which in turn causes the second bevel gear 28 to rotate in conjunction, which in turn causes the first bevel gear 42 to rotate in conjunction, thereby causing the first bevel gear 42 to rotate. The one spline sleeve 44 and the first spline shaft 50 are interlocked and rotated, and thereby the winding trough 12 is interlocked and rotated, and at the same time, the second spline sleeve 22 is rotated and the first rotary shaft 23 is rotated. And the first rotating shaft 23 rotates to rotate the rotating rod 84 to rotate, and the rotating rod 84 rotates to move the limit block 90 to rotate the first rotating shaft 23. When the rotating rod 84 rotates from a horizontal state to an upward vertical state, the limit block 90 always pushes the upper end wall of the elongated hole 85 upward to move the pull-up rack 86 upward, When the first rotating shaft 23 continues to rotate and the rotating rod 84 rotates from the vertical state to the horizontal state, the pulling rack 86 moves downward due to the thrust action of the limit block 90, and the first rotating shaft 23 As it continues to rotate, the pull-up rack 86 moves up and down in conjunction with each other , thereby interlocking the first spline shaft 50 to move up and down, and at this time, the take-up tub 12 moves the stainless steel wire Take up on the outer surface of the take-up tub 12.

2. After the winding is completed, the first motor 41 is started and rotated, thereby interlockingly rotating the thread rod 40, and at this time, the slide rack 35 is moved to the left, whereby the slide rack 35 is moved to the left. The second gear 93 is interlocked with and meshes with the third gear 37, and at this time, the second pulley 38 is rotated to interlock and rotate the first pulley 31, thereby unidirectional transmission of the ratchet gear device 95. Due to the nature, the transmission wheel 80 cannot rotate.

3. At this time, the second motor 34 is started and rotated, and thereby the rotary rack 24 is interlocked and rotated, and thereby the cam 56 is interlocked and rotated. When the blocking block 54 moves upward to the apex position, at this time, the cutting knife 51 cuts the stainless steel wire, and at the same time when the blocking block 54 moves upward, the second rack 58 loses contact. It moves to the left, thereby interlocking the third rack 72 and moving it to the right, thereby locking the lock gear 67, and at this time, the rotary rack 24 rotates to interlock the third bevel gear 61. Then, the fourth bevel gear 62 is interlocked and rotated, thereby interlocking the torsion spring 64 and accumulating elastic energy, and at the same time, the winding chamber 15 is moved to the transmission chamber 82. Communication is performed, and at this time, the wound stainless steel wire falls above the transmission belt 81.

4. When the rotary rack 24 continues to rotate and the rotary rack 24 rotates once, the take-up trough 12 falls into the take-up chamber 15, and at the same time, the blocking block 54 moves downward to move the second rack. 58, the second rack 58 moves to the right to move the third rack 72 in an interlocking manner to the left, thereby moving the third rack 72 in an interlocking manner from the lock gear 67. At this time, the lock gear 67 rotates under the action of the torsion spring 64, which causes the worm 68 to rotate in an interlocking manner, which causes the worm wheel 19 to rotate in an interlocking manner. The sector gear 21 is interlocked and rotated, and thereby the guide rod 73 is interlocked and moved leftward to be inserted into the steel wire insertion hole 14. At this time, the first slide rod 47 is moved to both upper and lower sides. When the sector gear 21 continues to rotate and the sector gear 21 disengages from the first rack 92, the guide rod 73 returns under the action of the first return device 91. The two first slide rods 47 firmly clamp the stainless steel wire.

5. The first motor 41 is started and rotated in the opposite direction, thereby interlocking the slide rack 35 and moving it to the right, thereby interlocking the second spline shaft 33 to the second spline sleeve 22. At the same time, the second pulley 38 rotates in the opposite direction to rotate the first pulley 31 in an interlocking manner, which causes the transmission wheel 80 to rotate in an interlocking manner, thereby interlocking the transmission wheel 81. The stainless steel wire that has been moved and rolled up is sent out of the equipment.

The above is only a specific implementation mode of the present invention, but the protection scope of the present invention is not limited thereto. Changes and replacements that come up without the whole creative labor are covered by the protection scope of the present invention. Therefore, the scope of protection of the present invention is standardized on the scope of protection to which the rights claim is limited.

Claims (8)

In a front view, the body includes a body and an operation chamber installed in the body, and a winding device is installed in the operation chamber, and the winding device is installed in the operation chamber so as to be rotatable. An upper opening of the carousel is installed in the top wall of the carousel, a transmission chamber is installed in the bottom wall of the winding chamber, and an end of the transmission chamber is installed. A lifting chamber is installed in the wall, a first spline sleeve is rotatably installed between the lifting chamber and the winding chamber, and a first spline shaft is installed in the first spline sleeve. Connected by a spline, the first spline shaft moves up and down at the same time as the rotation of the first spline sleeve, thereby realizing winding of a stainless steel wire,
A communication groove that communicates with the outside is installed in the right end wall of the operation chamber, and a steel wire transportation device that transports stainless steel wire to the winding device is installed in the communication groove. The transportation device includes a slidable guide rod installed in the communication groove, a steel wire through hole is installed in the guide rod, and the steel wire through hole has an upper and lower end wall in only one direction. Rollers that can be rotated are installed symmetrically, and the steel wire transporting device provides convenience in transporting the steel wire by utilizing that the roller can rotate only in one direction,
A steel wire cutting device capable of cutting a stainless steel wire is installed in the bottom wall of the steel wire transportation device, and the steel wire cutting device is interlocked to cut the steel wire when the rotating rack rotates half a turn, When the carousel rotates once, the steel wire transporting device is interlocked to transport the steel wire,
A finished product feeding device for transporting the wound finished product is installed in the bottom wall of the operation chamber, and the rotating rack rotates to interlock the rolled finished product into the finished product feeding device. Dropping it on the installed transmission belt and sending it out of the equipment, a slide chamber is installed in the left end wall of the operation chamber, and a switching device capable of switching power is installed in the slide chamber, Winding up of a stainless steel wire for medical use, characterized in that the finished product feeding device rotates to operate the switching device in conjunction with each other, thereby switching the driving power between the winding device and the rotating rack. apparatus. The take-up device also includes a pulling rack rotatably connected to the bottom wall of the first spline shaft, and the pulling rack is provided with a long hole penetrating to the left and right. A first rotating shaft penetrating the transmission chamber is rotatably installed on the left side of the chamber, and a rotating rod is fixedly installed at an end of the first rotating shaft in the pulling chamber. A limit block is installed fixedly on the right end wall of the rotating rod so as to be slidable in the long hole, and a first bevel gear is fixedly installed on the outer surface of the first rotating shaft in the transmission chamber. A second bevel gear meshing with the first bevel gear is fixedly installed on the outer surface of the first spline sleeve, and a second spline sleeve is fixedly installed on the left end of the first rotating shaft. An obstruction plate fixedly installed on the outer surface of the first spline shaft so as to be slidable into the winding chamber, and a holding hole penetrating left and right at the top of the first spline shaft. Is installed, a first slide hole having openings facing each other is installed in the upper and lower end walls of the holding hole, and a first slide rod is installed in the first slide hole so that the first slide rod can slide. A first spring is elastically installed between the first slide rod and the end wall of the first slide hole, and a vent hole is installed in the right end wall of the winding chamber. The winding device for a medical stainless steel wire according to claim 1, which is characterized in that. The steel wire transporting device also includes elastic chambers symmetrically installed in the upper and lower end walls of the steel wire through hole, and a sandwiching block is slidably installed in the elastic chamber. A second spring is elastically installed between the elastic chamber and the end wall of the elastic chamber, a roller chamber is installed in the holding block, and ratchet pawls are provided in the left and right end walls of the roller chamber. A chamber is installed and a second rotation shaft is rotatably installed between the left and right ratchet pawl chambers, and the ratchet pawl chamber cooperates with the ratchet pawl chamber at an end of the second rotation shaft in the ratchet pawl chamber. A working ratchet gear is fixedly installed, the roller is fixedly installed on the outer surface of the second rotating shaft in the roller chamber, and a first member is provided between the guide rod and the top wall of the communication groove. One return device is installed to have elasticity, a gear chamber is installed in the bottom wall of the communication groove, and a third rotating shaft is installed in the gear chamber so as to be rotatable. A sector gear that meshes with a first rack fixedly installed on the bottom wall of the guide rod and a worm wheel that is positioned on the front side of the sector gear are fixedly installed on the outer surface of the. The winding device for a medical stainless steel wire according to claim 1. The steel wire cutting device includes a cam chamber, an obstruction block is slidably installed in the cam chamber, and a guide slide hole communicating with the communication groove is installed in a top wall of the cam chamber. A cutting knife is slidably installed in the guide slide hole, a third spring is elastically installed between the blocking block and a top wall of the cam chamber, and a right end wall of the cam chamber is installed. A meshing chamber is installed therein, and a fourth rotating shaft fixedly connected to the rotary rack is rotatably installed between the meshing chamber and the cam chamber. the outer surface of the quad shaft disposed cam fixedly, to the end of the fourth rotational shaft in said engagement chamber according to claim 3, wherein a third bevel gear is fixedly installed Medical stainless steel wire winding device. A lock chamber is installed between the mesh chamber and the gear chamber, and a worm meshing with the worm wheel is rotatably installed between the lock chamber and the mesh chamber. A lock gear is fixedly installed on the outer surface of the worm, a fifth rotating shaft is installed in the top wall of the meshing chamber so as to be rotatable, and the third bevel gear is attached to an end of the fifth rotating shaft. A fourth bevel gear meshing with is fixedly installed, a torsion spring is elastically installed between the worm and the fifth rotating shaft, and a second bevel gear is installed in the right end wall of the cam chamber. A slide hole is installed, a second rack is installed in the second slide hole so as to be slidable, and a third slide hole is installed in the left end wall of the lock chamber. A third rack is slidably installed inside the second slide device, and a second return device is elastically installed between the third rack and the top wall of the third slide hole. An empty chamber is installed between the hole and the third slide hole, and the first gear meshing with the second rack and the third rack is installed in the empty chamber so as to be rotatable. The winding device for a medical stainless steel wire according to claim 4, which is characterized in that. The finished product feeder includes a rearward-opening transmission chamber installed in the body, a belt chamber is installed in a left end wall of the transmission chamber, and a transversal symmetry is provided in the transfer chamber. A sixth rotation shaft is installed so as to be slidable, a transmission wheel is fixedly installed on an outer surface of the sixth rotation shaft in the transmission chamber, and a transmission belt is used to transmit between the front and rear two transmission wheels. Operatively connected, the front end of the sixth rotary shaft extends into the belt chamber, and the first pulley is fixedly installed at the front end of the sixth rotary shaft. A ratchet gear device is installed between one pulley and the transmission wheel, and a take-up trough feed passage that penetrates the body is installed in the top wall of the transmission chamber. Item 1. A medical stainless steel wire winding device according to Item 1. The switching device includes a slide rack slidably installed in the slide chamber, a threaded hole penetrating left and right is installed in the slide rack, and the threaded hole is provided in the threaded hole. A thread rod is connected by a thread, and a left end of the thread rod is connected for power transmission with a first motor fixedly installed in a left end wall of the belt chamber, and the slide rack. A second motor is fixedly installed therein, a second spline shaft is fixedly connected to the right end of the main shaft of the second motor, and a second gear is attached to the left end of the main shaft of the second motor. Is fixedly installed, and a seventh rotation shaft fixedly connected to the rotary rack is rotatably installed between the slide chamber and the operation chamber. A third gear is fixedly installed at the end of the rotating shaft, and a second pulley is fixedly installed at the end of the seventh rotating shaft in the belt chamber, and the second pulley and the first pulley are installed. The device for winding a stainless steel wire for medical use according to claim 6, wherein a belt is connected between the device and the device. A plurality of take-up tubs are installed in the take-up tub feed passage so as to be slidable, and a pipe penetrating vertically is installed in the take-up tub. The medical stainless steel wire winding device according to claim 1, wherein a hole containing a steel wire is provided therein.

Images