阅读说明：本技术 自动焊线钢扣机 (Automatic wire welding steel buckle machine ) 是由 陈汉光 苏华南 李有青 严知会 于 2019-10-24 设计创作，主要内容包括：本发明公开了自动焊线钢扣机,包括机座、控制面板、液压站、至少两个调直送线装置和至少两个线架,两个线架上均通过单向轴承可转动的安装有不锈钢丝卷,机座上设有横送线机构、纵送线机构、焊线机构、模具成型机构和切线机构,液压站、调直送线装置、横送线机构、纵送线机构、焊线机构、模具成型机构和切线机构均与控制面板连接,两个线架分别用于对横送线机构和纵送线机构输送不锈钢丝,两个调直送线装置分别用于对送往横送线机构和纵送线机构的不锈钢丝进行调直。本发明自动化程度高,劳动强度低,折弯精度高,能够有效的提高产品的质量,降低人工成本。(The invention discloses an automatic wire welding steel buckle machine, which comprises a machine base, a control panel, a hydraulic station, at least two straightening wire feeding devices and at least two wire frames, wherein stainless steel wire coils are rotatably arranged on the two wire frames through one-way bearings, a transverse wire feeding mechanism, a longitudinal wire feeding mechanism, a welding wire mechanism, a mold forming mechanism and a wire cutting mechanism are arranged on the machine base, the hydraulic station, the straightening wire feeding devices, the transverse wire feeding mechanism, the longitudinal wire feeding mechanism, the welding wire mechanism, the mold forming mechanism and the wire cutting mechanism are all connected with the control panel, the two wire frames are respectively used for conveying stainless steel wires to the transverse wire feeding mechanism and the longitudinal wire feeding mechanism, and the two straightening wire feeding devices are respectively used for straightening the stainless steel wires conveyed to the transverse wire feeding mechanism and the longitudinal wire feeding mechanism. The bending machine has the advantages of high automation degree, low labor intensity and high bending precision, and can effectively improve the quality of products and reduce the labor cost.)

1. Automatic machine is detained to bonding wire steel, including frame, control panel, hydraulic pressure station, two at least alignment send traditional thread binding putting and two at least line frames, all through the rotatable stainless steel wire book of installing of one-way bearing on two line frames, its characterized in that: the stainless steel wire straightening and straightening machine is characterized in that a transverse wire feeding mechanism, a longitudinal wire feeding mechanism, a welding wire mechanism, a mold forming mechanism and a wire cutting mechanism are arranged on the machine base, a hydraulic station, a straightening wire feeding device, a transverse wire feeding mechanism, a longitudinal wire feeding mechanism, a welding wire mechanism, a mold forming mechanism and a wire cutting mechanism are all connected with the control panel, the two wire racks are respectively used for conveying stainless steel wires to the transverse wire feeding mechanism and the longitudinal wire feeding mechanism, the two straightening wire feeding devices are respectively used for straightening the stainless steel wires fed to the transverse wire feeding mechanism and the longitudinal wire feeding mechanism, the transverse wire feeding mechanism comprises a first mounting frame, a first wire pressing cylinder, a second wire pressing cylinder and a transverse wire feeding motor, the first wire pressing cylinder, the second wire pressing cylinder and the first wire pressing cylinder are respectively used for pressing the stainless steel wires sequentially, the transverse wire feeding motor is used for moving the stainless steel wires to the welding wire mechanism, the longitudinal wire feeding mechanism comprises a second mounting frame and a third wire pressing, The stainless steel wire welding device comprises a fourth wire pressing cylinder, a longitudinal wire feeding motor, a displacement cylinder and a wire cutting cylinder, wherein the third wire pressing cylinder and the fourth wire pressing cylinder are used for pressing a stainless steel wire, the longitudinal wire feeding motor is used for moving the stainless steel wire to the wire cutting cylinder, the wire cutting cylinder is used for cutting the stainless steel wire, the displacement cylinder is used for moving the stainless steel wire to a wire welding mechanism, the wire welding mechanism is used for welding the stainless steel wire conveyed by the longitudinal wire feeding mechanism and the transverse wire feeding mechanism together, the wire welding mechanism comprises a third mounting frame, an upper welding nozzle, a lower welding nozzle, a welding nozzle cylinder, a positioning jig and a positioning cylinder, the upper welding nozzle and the lower welding nozzle are arranged oppositely, the welding nozzle cylinder is used for driving the upper welding nozzle to move towards the direction of the lower welding nozzle, the positioning jig is used for positioning the stainless steel wire conveyed by the longitudinal wire feeding mechanism and the transverse wire feeding mechanism, the positioning cylinder is used for limiting the position of, a pressing wheel is arranged above the connecting plate, the welded stainless steel wire moves to a die forming mechanism through the connecting plate, the pressing wheel is used for preventing the welded stainless steel wire from deviating in the moving process, the die forming mechanism comprises a fourth mounting frame, a conveying plate arranged on the fourth mounting frame, a wire feeding cylinder, a first forming station, a second forming station and a pressing oil cylinder, the wire feeding cylinder is connected with a wire transversely-feeding motor through a connecting rod, a telescopic rod of the wire feeding cylinder is connected with a positioning column, a positioning hole matched with the positioning column is formed in the connecting plate, the wire feeding cylinder drives the positioning column to be inserted into the positioning hole, the wire transversely-feeding motor drives the stainless steel wire to move towards the welding mechanism, the wire feeding cylinder is driven to drive the connecting plate to move towards the die forming mechanism, the connecting plate and the conveying plate are parallel and level, and the first bending cylinder, A second bending cylinder and a third bending cylinder, wherein the pressing cylinder is connected with a lower pressing plate, the lower pressing plate is provided with a first positioning block and a second positioning block, the first positioning block and the second positioning block are respectively provided with a positioning groove matched with the stainless steel wire, the pressing cylinder drives the lower pressing plate to press downwards, the lower pressing plate drives the first positioning block and the second positioning block to move downwards to fix the welded stainless steel wire on the conveying plate, the first bending cylinder is arranged behind the conveying plate and is used for bending the rear end of the welded stainless steel wire, the second bending cylinder is arranged at the lower end of the front of the conveying plate and is used for bending the front end of the welded stainless steel wire for the first time, the third bending cylinder is arranged in front of the conveying plate and is used for bending the stainless steel wire after the first time, the wire cutting mechanism comprises a wire cutting block, a wire cutting cylinder, a cutter driven by the wire cutting cylinder and a butting plate, tangent line piece flushes with the delivery board, the tangent line hydro-cylinder sets up the top at tangent line piece to can drive the cutter and support the board and move about from top to bottom towards tangent line piece direction, first line ball cylinder, the second line ball cylinder, violently send the line motor, the third line ball cylinder, the fourth line ball cylinder, indulge send the line motor, the displacement cylinder, the tangent line hydro-cylinder, the welding nozzle cylinder, the location cylinder, send the line cylinder, first cylinder of bending, the second cylinder of bending, the third cylinder of bending, it all is connected with the hydraulic pressure station to compress tightly hydro-cylinder and tangent line hydro-cylinder.

2. The automatic wire-welding steel button machine according to claim 1, characterized in that: be equipped with first fixed block on the first mounting bracket, but first guide rail and mobile second fixed block of installing on first guide rail that turn right from a left side and set up, be equipped with first trough and second trough on first fixed block and the second fixed block respectively, first line ball cylinder and second line ball cylinder are all installed respectively in the top of first fixed block and second fixed block through the installation riser, and the equal telescopic link of first line ball cylinder and second line ball cylinder sets up down, the telescopic link of first line ball cylinder and second line ball cylinder all is connected with the briquetting, first line ball cylinder and second line ball cylinder all can drive the position of the fixed stainless steel wire of briquetting.

3. The automatic wire-welding steel button machine according to claim 2, characterized in that: the horizontal wire feeding motor is installed on the left side of the first installation frame through the installation column, a sliding seat corresponding to the first guide rail is arranged at the lower end of the second fixing block, a connecting seat extending downwards is arranged at the lower end of the sliding seat, and the horizontal wire feeding motor is connected with the connecting seat through a lead screw and can drive the second fixing block to move left and right.

4. The automatic wire-welding steel button machine according to claim 1, characterized in that: the second mounting bracket is provided with a bottom plate, a second guide rail and a third guide rail which are arranged along the front-back direction at intervals are arranged on the bottom plate, a third line pressing cylinder and a fourth line pressing cylinder are movably arranged on the bottom plate through a movable plate, two line pressing rollers which are arranged side by side are arranged on the movable plate, telescopic rods of the third line pressing cylinder and the fourth line pressing cylinder are downwards arranged above the line pressing rollers, the telescopic rods of the third line pressing cylinder and the fourth line pressing cylinder are connected with synchronizing wheels, line walking channels of stainless steel wires are formed between the line pressing rollers and the synchronizing wheels, a line longitudinal feeding motor is arranged at the rear end of the movable plate, the rear end of the movable plate is provided with a driving wheel which is connected with the line pressing rollers through bearings, and a.

5. The automatic wire-welding steel button machine according to claim 4, characterized in that: tangent line hydro-cylinder sets up at the rear end, and the displacement cylinder sets up the front end at the bottom plate, and the displacement cylinder passes through the telescopic link drive fly leaf and removes towards tangent line hydro-cylinder direction.

Technical Field

The invention relates to the technical field of automation equipment, in particular to an automatic wire welding steel buckle machine.

Background

When current steel knot machine is welding and is bending stainless steel wire, some steps need artifical auxiliary operation, and degree of automation is lower, and intensity of labour is great, and production efficiency is not high, and the cost of labor is high, and when bending, can appear bending in a while and thoroughly not enough the condition to influence the quality of product, demand in the satisfied market that can not be fine.

Disclosure of Invention

Aiming at the defects of the prior art, the invention provides the automatic wire-welding steel buckle machine which is high in automation degree, low in labor intensity and high in bending precision, and can effectively improve the product quality and reduce the labor cost.

In order to achieve the purpose, the technical scheme adopted by the invention is as follows:

an automatic wire-welding steel buckle machine comprises a machine base, a control panel, a hydraulic station, at least two straightening wire feeding devices and at least two wire frames, wherein stainless steel wire coils are rotatably arranged on the two wire frames through one-way bearings, a transverse wire feeding mechanism, a longitudinal wire feeding mechanism, a welding wire mechanism, a mold forming mechanism and a wire cutting mechanism are arranged on the machine base, the hydraulic station, the straightening wire feeding devices, the transverse wire feeding mechanism, the longitudinal wire feeding mechanism, the welding wire mechanism, the mold forming mechanism and the wire cutting mechanism are connected with the control panel, the two wire frames are respectively used for conveying stainless steel wires to the transverse wire feeding mechanism and the longitudinal wire feeding mechanism, the two straightening wire feeding devices are respectively used for straightening the stainless steel wires conveyed to the transverse wire feeding mechanism and the longitudinal wire feeding mechanism, the transverse wire feeding mechanism comprises a first mounting frame and a first wire pressing cylinder, a second wire pressing cylinder and a transverse wire feeding motor which are arranged on the first mounting frame, the second wire pressing cylinder and the first wire pressing cylinder are respectively used for sequentially pressing the stainless, the transverse wire feeding motor is used for moving the stainless steel wire to the wire welding mechanism, the longitudinal wire feeding mechanism comprises a second mounting frame, and a third wire pressing cylinder, a fourth wire pressing cylinder, a longitudinal wire feeding motor, a displacement cylinder and a wire cutting cylinder which are mounted on the second mounting frame, the third wire pressing cylinder and the fourth wire pressing cylinder are both used for pressing the stainless steel wire, the longitudinal wire feeding motor is used for moving the stainless steel wire to the wire cutting cylinder which is used for cutting the stainless steel wire, the displacement cylinder is used for moving the stainless steel wire to the wire welding mechanism, the wire welding mechanism is used for welding the stainless steel wires conveyed by the transverse wire feeding mechanism and the longitudinal wire feeding mechanism together, the wire welding mechanism comprises a third mounting frame, and an upper welding nozzle, a lower welding nozzle, a welding nozzle cylinder, a positioning jig and a positioning cylinder which are mounted on the third mounting frame, the upper welding nozzle and the lower welding nozzle are arranged oppositely, and the welding nozzle cylinder is used for driving the upper, the positioning jig is used for positioning the stainless steel wires conveyed by the transverse wire feeding mechanism and the longitudinal wire feeding mechanism, the positioning cylinder is used for limiting the position of the positioning jig, a connecting plate is arranged between the welding mechanism and the die forming mechanism, a pressing wheel is arranged above the connecting plate, the welded stainless steel wires move to the die forming mechanism through the connecting plate, the pressing wheel is used for preventing the welded stainless steel wires from deviating in the moving process, the die forming mechanism comprises a fourth mounting frame, a conveying plate arranged on the fourth mounting frame, a wire feeding cylinder, a first forming station, a second forming station and a pressing oil cylinder, the wire feeding cylinder is connected with a transverse wire feeding motor through a connecting rod, a positioning column is connected with a telescopic rod of the wire feeding cylinder, a positioning hole matched with the positioning column is arranged on the connecting plate, the wire feeding cylinder drives the positioning column to be inserted into the positioning hole, and the, simultaneously driving a wire feeding cylinder to drive a connecting plate to move towards a die forming mechanism, wherein the connecting plate and the conveying plate are aligned, a first bending cylinder, a second bending cylinder and a third bending cylinder are arranged on a first forming station and a second forming station respectively, a pressing oil cylinder is connected with a lower pressing plate, a first positioning block and a second positioning block are arranged on the lower pressing plate, positioning grooves matched with the stainless steel wires are arranged on the first positioning block and the second positioning block respectively, the pressing oil cylinder drives the lower pressing plate to press downwards, the first positioning block and the second positioning block are driven by the lower pressing plate to move downwards to fix the welded stainless steel wires on the conveying plate, the first bending cylinder is arranged behind the conveying plate and used for bending the rear ends of the welded stainless steel wires, the second bending cylinder is arranged at the lower front end of the conveying plate, and the second bending cylinder is used for bending the front ends of the welded stainless steel wires for the first time, the third bending cylinder is arranged in front of the conveying plate, the third bending cylinder is used for bending the stainless steel wire which is bent for the first time for the second time, the wire cutting mechanism comprises a wire cutting block, a wire cutting oil cylinder, a cutter and a butting plate, the cutter is driven by the wire cutting oil cylinder, the wire cutting block is flush with the conveying plate, the wire cutting oil cylinder is arranged above the wire cutting block and can drive the cutter and the butting plate to move up and down towards the direction of the wire cutting block, and the first wire pressing cylinder, the second wire pressing cylinder, the wire transverse feeding motor, the third wire pressing cylinder, the fourth wire pressing cylinder, the wire longitudinal feeding motor, the displacement cylinder, the wire cutting oil cylinder, the welding nozzle cylinder, the positioning cylinder, the wire feeding cylinder, the first bending cylinder, the second bending cylinder, the third bending cylinder, the pressing oil cylinder and the wire cutting oil cylinder are.

In the above description, as preferred, be equipped with first fixed block on the first mounting bracket, turn right the first guide rail that sets up and mobile second fixed block of installing on first guide rail from a left side, be equipped with first trough and second trough on first fixed block and the second fixed block respectively, first line ball cylinder and second line ball cylinder are all installed respectively in the top of first fixed block and second fixed block through the installation riser, and the equal telescopic link of first line ball cylinder and second line ball cylinder sets up down, the telescopic link of first line ball cylinder and second line ball cylinder all is connected with the piece of suppressing, first line ball cylinder and second line ball cylinder all can drive the position of the fixed stainless steel wire of piece of suppressing.

In the above description, as an optimization, the traverse wire feeding motor is installed on the left side of the first installation frame through the installation column, the lower end of the second fixed block is provided with a sliding seat corresponding to the first guide rail, the lower end of the sliding seat is provided with a connecting seat extending downwards, and the traverse wire feeding motor is connected with the connecting seat through a screw rod and can drive the second fixed block to move left and right.

In the above description, as preferred, the second mounting bracket is provided with a bottom plate, the bottom plate is provided with a second guide rail and a third guide rail which are arranged at intervals along the front-back direction, the third line pressing cylinder and the fourth line pressing cylinder are movably mounted on the bottom plate through a movable plate, the movable plate is provided with two line pressing rollers which are arranged side by side, telescopic rods of the third line pressing cylinder and the fourth line pressing cylinder are mounted above the line pressing rollers downwards, the telescopic rods of the third line pressing cylinder and the fourth line pressing cylinder are both connected with synchronizing wheels, a line passing channel of stainless steel wires is formed between the line pressing rollers and the synchronizing wheels, the longitudinal line feeding motor is arranged at the rear end of the movable plate, the rear end of the movable plate is provided with a driving wheel connected with the line pressing rollers through bearings, and.

In the above description, preferably, the tangent oil cylinder is disposed at the rear end, the displacement cylinder is disposed at the front end of the bottom plate, and the displacement cylinder drives the movable plate to move towards the tangent oil cylinder through the telescopic rod.

The beneficial effects produced by the invention are as follows: by arranging the control panel, the transverse wire feeding mechanism, the longitudinal wire feeding mechanism, the welding wire mechanism, the die forming mechanism and the wire cutting mechanism, the automatic welding of the steel buckle can be effectively carried out, the automation degree is high, the labor cost is reduced, and the production efficiency of products is improved; the die forming mechanism is provided with a first forming station and a second forming station, the first forming station and the second forming station are provided with a first bending cylinder, a second bending cylinder and a third bending cylinder, the two forming stations are arranged simultaneously, secondary bending can be performed on the stainless steel wire, bending precision is improved, and product quality is improved.

Drawings

FIG. 1: is a schematic view of an assembly structure of an embodiment of the present invention;

FIG. 2: is a schematic structural diagram of a thread feeding mechanism according to an embodiment of the present invention;

FIG. 3: is a schematic structural diagram of a longitudinal wire feeding mechanism in an embodiment of the present invention;

FIG. 4: is a schematic structural diagram of a welding mechanism according to an embodiment of the present invention;

FIG. 5: is a schematic structural diagram of a mold forming mechanism according to an embodiment of the present invention;

FIG. 6: is a schematic rear view structure diagram of a mold forming mechanism of an embodiment of the invention;

FIG. 7: is a schematic structural diagram of a wire cutting mechanism according to an embodiment of the present invention;

FIG. 8: is a schematic structural diagram of a wire straightening and feeding device according to an embodiment of the present invention;

FIG. 9: is a schematic diagram of a bobbin structure according to an embodiment of the present invention;

the attached drawings indicate the following: 10-machine base, 11-control panel, 12-connecting plate, 121-positioning hole, 13-press wheel, 20-traverse line mechanism, 21-first mounting frame, 211-mounting riser, 212-mounting column, 22-first press cylinder, 221-pressing block, 23-second press cylinder, 24-traverse line motor, 241-screw, 25-first fixing block, 26-first guide rail, 27-second fixing block, 271-slide, 272-connecting seat, 30-traverse line mechanism, 31-second mounting frame, 311-bottom plate, 312-second guide rail, 32-third press cylinder, 321-synchronizing wheel, 33-fourth press cylinder, 34-traverse line motor, 341-driving wheel, 35-displacement cylinder, 36-a wire cutting cylinder, 37-a movable plate, 371-a wire pressing roller, 40-a wire welding mechanism, 41-a third mounting frame, 42-an upper welding tip, 43-a lower welding tip, 44-a welding tip cylinder, 45-a positioning jig, 46-a positioning cylinder, 50-a mold forming mechanism, 51-a fourth mounting frame, 53-a wire feeding cylinder, 531-a connecting rod, 532-a positioning column, 54-a first bending cylinder, 55-a second bending cylinder, 56-a third bending cylinder, 57-a pressing cylinder, 571-a lower pressing plate, 572-a first positioning block, 573-a second positioning block, 60-a wire cutting mechanism, 61-a wire cutting block, 62-a wire cutting cylinder, 63-a cutting knife, 64-a resisting plate, 70-a hydraulic station, 80-a wire straightening and feeding device, 90-wire frame, 91-one-way shaft.

Detailed Description

To more clearly illustrate the structural features and technical means of the present invention and the specific objects and functions attained thereby, the present invention will be described in further detail with reference to the accompanying drawings and specific embodiments:

in this embodiment: as shown in fig. 1-9, the automatic wire-bonding steel buckle machine includes a machine base 10, a control panel 11, a hydraulic station 70, at least two straightening wire-feeding devices 80 and at least two wire frames 90, wherein stainless steel wire coils are rotatably mounted on the two wire frames 90 through a one-way bearing 91, the machine base 10 is provided with a transverse wire-feeding mechanism 20, a longitudinal wire-feeding mechanism 30, a wire-bonding mechanism 40, a mold-forming mechanism 50 and a wire-cutting mechanism 60, the hydraulic station 70, the straightening wire-feeding devices 80, the transverse wire-feeding mechanism 20, the longitudinal wire-feeding mechanism 30, the wire-bonding mechanism 40, the mold-forming mechanism 50 and the wire-cutting mechanism 60 are all connected with the control panel 11, the two wire frames 90 are respectively used for feeding stainless steel wires to the transverse wire-feeding mechanism 20 and the longitudinal wire-feeding mechanism 30, and the two straightening wire-feeding devices 80 are respectively used for straightening stainless steel wires fed to the transverse wire-feeding mechanism 20 and.

The transverse wire feeding mechanism 20 comprises a first mounting frame 21, and a first wire pressing cylinder 22, a second wire pressing cylinder 23 and a transverse wire feeding motor 24 which are mounted on the first mounting frame 21, wherein the second wire pressing cylinder 23 and the first wire pressing cylinder 22 are respectively used for sequentially pressing a stainless steel wire, the transverse wire feeding motor 24 is used for moving the stainless steel wire to the wire welding mechanism 40, a first fixing block 25, a first guide rail 26 arranged from left to right and a second fixing block 27 movably mounted on the first guide rail 26 are arranged on the first mounting frame 21, a first wire trough and a second wire trough are respectively arranged on the first fixing block 25 and the second fixing block 27, the first wire pressing cylinder 22 and the second wire pressing cylinder 23 are respectively mounted above the first fixing block 25 and the second fixing block 27 through mounting risers 211, the first wire pressing cylinder 22 and the second wire pressing cylinder 23 are both arranged in a downward telescopic manner, the telescopic rods of the first wire pressing cylinder 22 and the second wire pressing cylinder 23 are both connected with pressing blocks 221, the first wire pressing cylinder 22 and the second wire pressing cylinder 23 can both drive the pressing block 221 to fix the position of the stainless steel wire, the wire transverse feeding motor 24 is mounted on the left side of the first mounting frame 21 through the mounting column 212, the lower end of the second fixing block 27 is provided with a sliding seat 271 corresponding to the first guide rail 26, the lower end of the sliding seat 271 is provided with a connecting seat 272 extending downwards, the wire transverse feeding motor 24 is connected with the connecting seat 272 through a lead screw 241 and can drive the second fixing block 27 to move left and right.

The longitudinal wire feeding mechanism 30 comprises a second mounting frame 31, a third wire pressing cylinder 32, a fourth wire pressing cylinder 33, a longitudinal wire feeding motor 34, a displacement cylinder 35 and a tangent cylinder 6236, wherein the third wire pressing cylinder 32, the fourth wire pressing cylinder 33 and the longitudinal wire feeding motor 34 are mounted on the second mounting frame 31, the third wire pressing cylinder 32 and the fourth wire pressing cylinder 33 are used for pressing the stainless steel wires, the longitudinal wire feeding motor 34 is used for moving the stainless steel wires to the tangent cylinder 6236, the tangent cylinder 6236 is used for cutting the stainless steel wires, the displacement cylinder 35 is used for moving the stainless steel wires to the wire welding mechanism 40, the second mounting frame 31 is provided with a bottom plate 311, a second guide rail 312 and a third guide rail are arranged on the bottom plate 311 at intervals along the front-back direction, the third wire pressing cylinder 32 and the fourth wire pressing cylinder 33 are movably mounted on the bottom plate 311 through a movable plate 37, two wire pressing rollers 371 are arranged side by side on the movable, the telescopic rods of the third wire pressing cylinder 32 and the fourth wire pressing cylinder 33 are both connected with a synchronizing wheel 321, a wire passing channel of a stainless steel wire is formed between a wire pressing roller 371 and the synchronizing wheel 321, the longitudinal wire feeding motor 34 is arranged at the rear end of the movable plate 37, the rear end of the movable plate 37 is provided with a driving wheel 341 connected with the wire pressing roller 371 through a bearing, the movable rod of the longitudinal wire feeding motor 34 is connected with the driving wheel 341, the tangent line oil cylinder 6236 is arranged at the rear end, the displacement cylinder 35 is arranged at the front end of the bottom plate 311, and the displacement cylinder 35 drives the movable plate 37 to move towards the tangent line oil cylinder 6236 through the.

The welding wire mechanism 40 is used for welding the stainless steel wires conveyed by the transverse wire feeding mechanism 20 and the longitudinal wire feeding mechanism 30 together, the welding wire mechanism 40 comprises a third mounting frame 41 and an upper welding tip 42 mounted on the third mounting frame 41, a lower welding tip 43, a welding tip cylinder 44, a positioning fixture 45 and a positioning cylinder 46, the upper welding tip 42 and the lower welding tip 43 are arranged oppositely, the welding tip cylinder 44 is used for driving the upper welding tip 42 to move towards the lower welding tip 43, the positioning fixture 45 is used for positioning the stainless steel wires conveyed by the transverse wire feeding mechanism 20 and the longitudinal wire feeding mechanism 30, and the positioning cylinder 46 is used for limiting the position of the positioning fixture 45.

Be equipped with connecting plate 12 between welding mechanism and the mould forming mechanism 50, connecting plate 12 top is equipped with pinch roller 13, and the stainless steel wire that the welding is good removes mould forming mechanism 50 through connecting plate 12, and pinch roller 13 is used for preventing that the skew from appearing at the removal in-process of the stainless steel wire that the welding is good.

The die forming mechanism 50 comprises a fourth mounting frame 51, a conveying plate mounted on the fourth mounting frame 51, a wire feeding cylinder 53, a first forming station, a second forming station and a pressing oil cylinder 57, the wire feeding cylinder 53 is connected with a wire transverse feeding motor 24 through a connecting rod 531, an expansion rod of the wire feeding cylinder 53 is connected with a positioning column 532, a positioning hole 121 matched with the positioning column 532 is formed in the connecting plate 12, the wire feeding cylinder 53 drives the positioning column 532 to be inserted into the positioning hole 121, the wire transverse feeding motor 24 drives a stainless steel wire to move towards the welding mechanism and simultaneously drives the wire feeding cylinder 53 to drive the connecting plate 12 to move towards the die forming mechanism 50, the connecting plate 12 and the conveying plate are aligned, a first bending cylinder 54, a second bending cylinder 55 and a third bending cylinder 56 are arranged in each of the first forming station and the second forming station, the pressing oil cylinder 57 is connected with a lower pressing plate 571, a first positioning block 572 and a second positioning block 573 are arranged, the first positioning block 572 and the second positioning block 573 are both provided with positioning grooves matched with the stainless steel wires, the pressing oil cylinder 57 drives the lower pressing plate 571 to press downwards, the lower pressing plate 571 drives the first positioning block 572 and the second positioning block 573 to move downwards to fix the welded stainless steel wires on the conveying plate, the first bending air cylinder 54 is arranged behind the conveying plate, the first bending air cylinder 54 is used for bending the rear ends of the welded stainless steel wires, the second bending air cylinder 55 is arranged at the lower end of the front of the conveying plate, the second bending air cylinder 55 is used for bending the front ends of the welded stainless steel wires for the first time, the third bending air cylinder 56 is arranged in front of the conveying plate, and the third bending air cylinder 56 is used for bending the stainless steel wires after the first time.

The thread cutting mechanism 60 comprises a thread cutting block 61, a thread cutting oil cylinder 6236, a cutter 63 driven by the thread cutting oil cylinder 6236 and a resisting plate 64, wherein the thread cutting block 61 is flush with the conveying plate, the thread cutting oil cylinder 6236 is arranged above the thread cutting block 61, and the cutter 63 and the resisting plate 64 can be driven to move up and down towards the thread cutting block 61.

The first wire pressing cylinder 22, the second wire pressing cylinder 23, the transverse wire feeding motor 24, the third wire pressing cylinder 32, the fourth wire pressing cylinder 33, the longitudinal wire feeding motor 34, the displacement cylinder 35, the wire cutting cylinder 6236, the welding tip cylinder 44, the positioning cylinder 46, the wire feeding cylinder 53, the first bending cylinder 54, the second bending cylinder 55, the third bending cylinder 56, the pressing cylinder 57 and the wire cutting cylinder 6236 are all connected with the hydraulic station 70.

The above description is only for the preferred embodiment of the present invention and is not intended to limit the present invention, so that any modifications, equivalents, improvements, etc. made to the above embodiment according to the present invention are within the scope of the present invention.