CN213694321U - Cutting plate feeding mechanism applied to welding of surgical electrode circuit board - Google Patents

Abstract

The utility model provides a cutting plate feeding mechanism applied to welding of an electrode circuit board for operation, which comprises a frame, a wire transmission mechanism, a cutting plate feeding mechanism, a welding mechanism, a circuit jointed board consisting of a plurality of circuit boards and a three-core power line, wherein the wire transmission mechanism is used for step-by-step conveying of a plurality of power lines to be stripped, and the cutting plate feeding mechanism and the welding mechanism are sequentially arranged along the conveying direction of the wire transmission mechanism; the cutting plate conveying mechanism is used for cutting and conveying the circuit jointed plates to a welding position one by one, and the welding mechanism is used for welding the power line and the circuit board together. Cutting the circuit boards at equal intervals one by adopting a mechanical circulating circuit board cutting mode; the cutting width consistency is higher, the circuit board is not easy to damage, the manpower is reduced, the production cost is reduced, and the production efficiency is improved.

Description

Cutting plate feeding mechanism applied to welding of surgical electrode circuit board

Technical Field

The utility model relates to an auxiliary medical instrument technical field specifically is a be applied to operation electrode circuit board welded cutting board and send trigger structure.

Background

The disposable operation electrode is an auxiliary medical instrument used for clinical surgical operation, is generally matched with high-frequency equipment for use, and realizes the functions of electrocoagulation, electrosection and the like on tissues during the operation. Domestic and global use demand is large, and disposable operation electrode belongs to the consumables, and every hospital monthly, quarterly, every year all has shorter purchase cycle, and market share and prospect are good.

At present, circuit board jointed boards in disposable operation electrode circuit boards are all cut manually, a large amount of manpower and time are needed, and the production cost is high. Meanwhile, the circuit board is easy to damage due to manual cutting, the cutting position is irregular, and the consistency is poor.

SUMMERY OF THE UTILITY MODEL

Technical problem to be solved

The utility model provides a be applied to operation electrode circuit board welded cutting board and send board mechanism to prior art not enough, the problem of proposing in the above-mentioned background art has been solved.

(II) technical scheme

In order to achieve the above purpose, the utility model discloses a following technical scheme realizes: a cutting plate feeding mechanism applied to welding of an operation electrode circuit board comprises a rack, a conducting wire transmission mechanism, a cutting plate feeding mechanism, a welding mechanism, a circuit board splicing plate and a three-core power line, wherein the conducting wire transmission mechanism, the cutting plate feeding mechanism and the welding mechanism are arranged on the rack; the cutting plate conveying mechanism is used for cutting and conveying the circuit board jointed plates to a welding position one by one, and the welding mechanism is used for welding the power line and the circuit board together.

Preferably, wire transmission device includes transfer chain, a plurality of unwrapping wire module and the step motor that is used for placing the power cord, the transfer chain sets up in the frame, and is a plurality of the unwrapping wire module is along the equidistant setting of length direction of transfer chain, step motor is used for driving the step-by-step removal of transfer chain.

Preferably, the board cutting and feeding mechanism comprises a conveying groove, a pushing cylinder, a material ejecting auxiliary cylinder, a pressing board cylinder, a shearing cylinder, a material stripping cylinder, a material discharging slide way and a pushing block, the conveying groove is used for placing circuit board jointed boards, one end of the material discharging slide way is connected with the conveying groove, the pushing cylinder is arranged at a material inlet of the conveying groove and used for pushing the circuit board jointed boards to the material discharging slide way, the pressing board cylinder and the material ejecting auxiliary cylinder are arranged on the material discharging slide way and vertically correspond to the circuit board jointed boards, the shearing cylinder is arranged on the material discharging slide way, a blade at the output end of the shearing cylinder is used for cutting the circuit board jointed boards, the pushing block is arranged at the output end of the material pushing cylinder and is in sliding fit with the slide way of the material discharging slide way, and is used for pushing the cut circuit boards to a material outlet of the material discharging, the discharge port of the discharge slide corresponds to the pay-off module, and the stripping cylinder is arranged at the bottom of the discharge port of the discharge slide and corresponds to the bottom of the circuit board.

Preferably, the welding mechanism comprises an electric iron, a traversing assembly, a rotating assembly, a base and a lifting cylinder, the electric iron is arranged at the output end of the lifting cylinder, the lifting cylinder is arranged on the base, the base is arranged on the rotating assembly, the rotating assembly can drive the base to rotate, the rotating assembly is arranged on the traversing assembly, the traversing assembly can drive the rotating assembly to transversely move, and the connecting position of the electric iron, the circuit board and the power line corresponds to each other.

(III) advantageous effects

The utility model provides a be applied to operation electrode circuit board welded cutting board and send trigger to construct. The method has the following beneficial effects:

1. the plate cutting and feeding mechanism for welding the surgical electrode circuit board cuts the circuit boards at equal intervals one by one in a mechanical circulation circuit board cutting mode; the cutting width consistency is higher, the circuit board is not easy to damage, the manpower is reduced, the production cost is reduced, and the production efficiency is improved.

Drawings

FIG. 1 is a schematic view of a plate cutting and feeding mechanism of the present invention;

FIG. 2 is a schematic view of the overall structure of the present invention;

fig. 3 is a schematic diagram of the welding state of the present invention.

In the figure: the device comprises a machine frame 1, a lead wire transmission mechanism 2, a transmission chain 21, a paying-off module 22, a stepping motor 23, a plate cutting and feeding mechanism 4, a conveying groove 41, a pushing cylinder 42, a pushing cylinder 43, an auxiliary cylinder 44, a pressing plate cylinder 45, a shearing cylinder 46, a stripping cylinder 47, a discharging slideway 48, a pushing block 49, a welding mechanism 5, an electric soldering iron 51, a transverse moving assembly 52, a rotating assembly 53, a base 54, a lifting cylinder 55, a power wire 6, a circuit board splicing 7 and a circuit board 8.

Detailed Description

The embodiment of the utility model provides a be applied to operation electrode circuit board welded cutting board and send board mechanism, as shown in fig. 1-3, including frame 1 and wire transmission mechanism 2, cutting board send board mechanism 4, welding mechanism 5, the circuit board makeup 7 of compriseing a plurality of circuit boards 8, the power cord 6 of three-core of setting in frame 1, three-core in the power cord 6 connects the three joint of circuit board 8 respectively. The wire transmission mechanism 2 is used for step-by-step conveying a plurality of power wires 6 to be stripped, and the plate cutting and feeding mechanism 4 and the welding mechanism 5 are sequentially arranged along the conveying direction of the wire transmission mechanism 2; and the board cutting and feeding mechanism 4 is used for cutting and conveying the jointed boards of the circuit board one by one to a welding position, and the welding mechanism 5 is used for welding the power line 6 and the circuit board together.

The wire transfer mechanism 2 comprises a conveyor chain 21, a plurality of paying-off modules 22 for placing the power wires 6 and a stepping motor 23, wherein the conveyor chain 21 is similar to an elliptical crawler-type conveyor belt, which is the prior art. The conveying chain 21 is arranged on the rack 1, the paying-off modules 22 are arranged at equal intervals along the length direction of the conveying chain 21, a wire slot is formed in each paying-off module 22, and an optical fiber sensor is arranged on each paying-off module 22. The optical fiber sensor is used to detect whether or not the welding mechanism 5 is reached. The wire casing is used for placing a power wire 6. The stepping motor 23 is connected with the rotating shaft of the conveying chain 21, and the stepping motor 23 is used for driving the conveying chain 21 to move in a stepping mode.

As shown in fig. 1, the board cutting and feeding mechanism 4 includes a conveying groove 41, a pushing cylinder 42, a pushing cylinder 43, a material ejecting auxiliary cylinder 44, a pressing cylinder 45, a shearing cylinder 46, a material stripping cylinder 47, a material discharging slideway 48 and a pushing block 49, wherein the conveying groove 41 is used for placing the circuit board jointed boards 7, one end of the material discharging slideway 48 is connected with the conveying groove 41, the pushing cylinder 42 is arranged at a material inlet of the conveying groove 41, the pushing cylinder 42 is used for pushing the circuit board jointed boards 7 to the material discharging slideway 48, the pressing cylinder 45 and the material ejecting auxiliary cylinder 44 are arranged on the material discharging slideway 48 and vertically correspond to the circuit board jointed boards 7, the shearing cylinder 46 is arranged on the material discharging slideway 48, a blade at an output end of the shearing cylinder 46 is used for cutting the circuit board jointed boards 7, the pushing block 49 is arranged at an output end of the pushing cylinder 43 and is in sliding fit with the slideway of the material discharging slideway 48, the pushing block 49 is used for pushing the cut circuit board jointed, the discharge port of the discharge slideway 48 corresponds to the pay-off module 22, and the material removing cylinder 47 is arranged at the bottom of the discharge port of the discharge slideway 48 and corresponds to the bottom of the circuit board.

As shown in fig. 3, when the plate cutting and feeding mechanism 4 is used:

route 1: manually place circuit board makeup 7 to conveyer trough 41, during operation, push away cylinder 42 and push away circuit board makeup 7 to the cutting position in proper order, and when circuit board makeup 7 used up, the magnetic switch on push away cylinder 42 gave the signal, and the suggestion material is used up.

Route 2: the circuit board jointed board 7 is conveyed to the lower side of the shearing cylinder 46 under the thrust of the pushing cylinder 42, the pressing plate cylinder 45 moves downwards, the position of the second circuit board 8 in the circuit board jointed board 7 is pressed, the magnetic switch detects that the pressing plate cylinder 45 reaches the lower limit of work, the ejecting auxiliary cylinder 44 moves, the ejector block rises to the position 1mm away from the lower part of the first circuit board 8, the magnetic switch detects that the ejecting auxiliary cylinder 44 reaches the upper limit of work, the shearing cylinder 46 moves downwards, the first circuit board 8 is sheared from the circuit board jointed board 7, the magnetic switch detects that the shearing cylinder 46 reaches the lower limit of work, the ejecting auxiliary cylinder 44 moves, the ejector block on the output end of the ejecting auxiliary cylinder 44 drops to the initial position, and the magnetic switch detects that the ejecting auxiliary cylinder 44 reaches the upper limit of work The material pushing cylinder 43 moves forwards to push the first cut circuit board 8 to the position to be welded, the magnetic switch detects that the material pushing cylinder 43 reaches the position before work, the material signal is given by the optical fiber sensor, the material pushing cylinder 43 is kept at the position, after the circuit board is welded, the material pushing cylinder 43 moves backwards, the circuit board returns to the initial position, the magnetic switch detects that the material pushing cylinder 43 reaches the position after work, and the steps are repeated.

As shown in fig. 1, the welding mechanism 5 includes an electric soldering iron 51, a traverse unit 52, a rotation unit 53, a base 54 and a lifting cylinder 55, the electric soldering iron 51 is disposed on an output end of the lifting cylinder 55, the lifting cylinder 55 is disposed on the base 54, the base 54 is disposed on the rotation unit 53, the rotation unit 53 can drive the base 54 to rotate, the rotation unit 53 is disposed on the traverse unit 52, the traverse unit 52 can drive the rotation unit 53 to move transversely, and the rotation unit 53 and the traverse unit 52 are both commercially available products for moving the electric soldering iron 51. The electric soldering iron 51 corresponds to the joint of the circuit board 8 and the power line 6.

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

Claims (4)

1. The utility model provides a be applied to operation electrode circuit board welded cutting board and send trigger to construct which characterized in that: the wire peeling machine comprises a rack (1), and a wire transmission mechanism (2), a cutting plate feeding mechanism (4), a welding mechanism (5), a circuit board splicing plate (7) consisting of a plurality of circuit boards (8) and a three-core power line (6) which are arranged on the rack (1), wherein the wire transmission mechanism (2) is used for step-by-step conveying of the power lines (6) to be peeled, and the cutting plate feeding mechanism (4) and the welding mechanism (5) are sequentially arranged along the conveying direction of the wire transmission mechanism (2); and the cutting plate conveying mechanism (4) is used for cutting and conveying the circuit board jointed plates to a welding position one by one, and the welding mechanism (5) is used for welding a power line (6) and the circuit board together.

2. The plate cutting and feeding mechanism applied to welding of the surgical electrode circuit board as claimed in claim 1, wherein: wire transmission device (2) are including transfer chain (21), a plurality of unwrapping wire module (22) and step motor (23) that are used for placing power cord (6), transfer chain (21) set up in frame (1), and is a plurality of unwrapping wire module (22) are along the equidistant setting of length direction of transfer chain (21), step motor (23) are used for driving transfer chain (21) marching type and move.

3. The plate cutting and feeding mechanism applied to welding of the surgical electrode circuit board as claimed in claim 2, wherein: the board cutting and feeding mechanism (4) comprises a conveying groove (41), a pushing cylinder (42), a pushing cylinder (43), a material ejecting auxiliary cylinder (44), a pressing plate cylinder (45), a shearing cylinder (46), a material stripping cylinder (47), a discharging slide way (48) and a pushing block (49), wherein the conveying groove (41) is used for placing the circuit board jointed boards (7), one end of the discharging slide way (48) is connected with the conveying groove (41), the pushing cylinder (42) is arranged at a material inlet of the conveying groove (41), the pushing cylinder (42) is used for pushing the circuit board jointed boards (7) to the discharging slide way (48), the pressing plate cylinder (45) and the material ejecting auxiliary cylinder (44) are arranged on the discharging slide way (48) and vertically correspond to the jointed boards (7), the shearing cylinder (46) is arranged on the discharging slide way (48), and a blade at the output end of the shearing cylinder (46) is used for cutting off the circuit board jointed boards (7), propelling movement piece (49) set up on the output that pushes away material cylinder (43), and with the slide slip adaptation of ejection of compact slide (48), propelling movement piece (49) are used for the discharge gate department of circuit board (8) propelling movement to ejection of compact slide (48) that will cut off, the discharge gate of ejection of compact slide (48) is corresponding with unwrapping wire module (22), take off material cylinder (47) set up in the bottom of ejection of compact slide (48) discharge gate and corresponding with the bottom of circuit board.

4. The plate cutting and feeding mechanism applied to welding of the surgical electrode circuit board as claimed in claim 3, wherein: the welding mechanism (5) comprises an electric iron (51), a transverse moving assembly (52), a rotating assembly (53), a base (54) and a lifting cylinder (55), the electric iron (51) is arranged at the output end of the lifting cylinder (55), the lifting cylinder (55) is arranged on the base (54), the base (54) is arranged on the rotating assembly (53), the rotating assembly (53) can drive the base (54) to rotate, the rotating assembly (53) is arranged on the transverse moving assembly (52), the transverse moving assembly (52) can drive the rotating assembly (53) to transversely move, and the electric iron (51) corresponds to the joint of the circuit board (8) and the power line (6).

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