CN216989663U - Multi-process integrated welding wire bending machine - Google Patents

Abstract

The utility model discloses a multi-process integrated welding wire bending machine, which is characterized in that: the bending machine comprises a bending main body, a discharging device, a workbench, a straightening mechanism, a wire feeding mechanism, a bending mechanism, a cutting mechanism and a pressing mechanism, wherein the bending main body is provided with the workbench on one side of the discharging device, the surface of the workbench is sequentially provided with the straightening mechanism, the wire feeding mechanism, the bending mechanism, the cutting mechanism and the pressing mechanism, the cutting mechanism is arranged on the upper right side of the bending mechanism, the pressing mechanism is arranged on the lower right side of the bending mechanism, the workbench is provided with a material receiving groove at the pressing mechanism, the top of the bending main body is provided with an operating platform, and the bending main body is provided with an alarm indicator lamp. According to the welding wire bending machine, the straightening mechanism, the wire feeding mechanism, the bending mechanism, the cutting mechanism and the pressing forming mechanism are arranged, a plurality of processes are integrated, manual operation is replaced by mechanical equipment, the production efficiency is improved, welding wires can be quickly and conveniently bent, cut and pressed and formed, the produced welding wires can meet the use requirements, the shapes are uniform, and the appearance is attractive.

Description

Multi-process integrated welding wire bending machine

Technical Field

The utility model belongs to the technical field of welding wire bending machines, and particularly relates to a multi-process integrated welding wire bending machine.

Background

The welding wire is used as a filler metal or a metal wire welding material for conducting at the same time, and comprises a carbon steel welding wire, a low-alloy structural steel welding wire, an alloy structural steel welding wire, a stainless steel welding wire, a non-ferrous metal welding wire and the like. The surface of the welding wire is not coated with a flux for preventing oxidation and is used as a filling metal in gas welding and tungsten gas shielded arc welding; when submerged arc welding, electroslag welding and other consumable electrode gas shielded arc welding are carried out, the welding wire is not only filled with metal but also is a conductive electrode, before the welding wire is used, a bending step is usually carried out to enable the welding wire to reach a certain shape, and then the use requirement is met.

SUMMERY OF THE UTILITY MODEL

In view of the problems raised by the above background art, the present invention is directed to: aims to provide a welding wire bending machine integrated with multiple processes.

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

integrative integrated welding wire bender of multiple operation, its characterized in that: a discharging device is installed on one side of the top of the bending main body, a workbench is installed on one side of the discharging device on the bending main body, a straightening mechanism, a wire feeding mechanism, a bending mechanism, a cutting mechanism and a pressing forming mechanism are sequentially installed on the surface of the workbench from left to right, the cutting mechanism is installed on the upper right side of the bending mechanism, the pressing forming mechanism is installed on the lower right side of the bending mechanism, a material receiving groove is installed at the pressing forming mechanism on the workbench, an operating platform is installed on the top of the bending main body, and an alarm indicator lamp is installed on one side of the top of the bending main body;

the wire feeding mechanism comprises a mounting seat mounted on a workbench, a servo motor is mounted on the mounting seat, a power output end of the servo motor is connected with a wire feeding wheel, the wire feeding wheel is mounted on the surface of the mounting seat, a threaded seat is mounted at the top of the mounting seat and connected with a threaded rod, a twisting block is connected at the top of the threaded rod, a sliding block is connected at the bottom of the threaded rod and connected with a sliding seat, the sliding seat is connected with a sliding rail in a sliding manner, the sliding rail is fixedly mounted on the mounting seat, a bearing is mounted in the sliding seat and connected with the threaded rod, and an auxiliary guide wheel is hinged to the sliding block at a position corresponding to the wire feeding wheel;

the bending mechanism comprises an installation plate which is installed on the workbench in a locking mode, an upper bending group is installed on the upper side of the installation plate, and a lower bending group is installed on the lower side of the installation plate;

the upper bending group comprises a first air cylinder, the power output end of the first air cylinder is connected with a first tooth holder arranged in an L-shaped structure, the first tooth holder is connected with a first guide sliding seat in a sliding mode, the first guide sliding seat is connected with a first bearing plate, the first bearing plate is installed on an installation plate, the first tooth holder is connected with a first gear in a meshing mode, the first gear is installed on the upper side of the first bearing plate in a rotating mode, the first gear is connected with a first crank shaft, the bottom of the first crank shaft is connected with a first eccentric holder, and the bottom of the first eccentric holder is connected with a first bending rod;

the lower bending group comprises a second cylinder, the power output end of the second cylinder is connected with a second tooth holder arranged in an L-shaped structure, the second tooth holder is connected with a second guide sliding seat in a sliding manner, the second guide sliding seat is connected with a second bearing plate, the second bearing plate is installed on the installation plate, the second tooth holder is connected with a second gear in a meshing manner, the second gear is rotatably installed on the lower side of the second bearing plate and is connected with a second crank shaft, the top of the second crank shaft is connected with a second eccentric holder, and the bottom of the second eccentric holder is connected with a second bending rod;

the upper bending group and the lower bending group are connected with a partition plate, four corners of the bottom of the partition plate are provided with lock columns, and the lock columns are locked and installed on the workbench;

the cutting mechanism comprises an adjusting seat, a third air cylinder is mounted on the adjusting seat, the power output end of the third air cylinder is connected with a moving seat, and a hydraulic cutter is mounted on the moving seat;

the press forming mechanism comprises a transverse plate, four corners of the bottom of the transverse plate are connected with stand columns, the stand columns are fixedly installed on a workbench, a fourth cylinder is installed at the top of the transverse plate, a power output end of the fourth cylinder is connected with a push block, the push block is connected with a lifting plate, guide sleeves are installed at four corners of the lifting plate and slide on the stand columns, an upper die is fixedly installed at the bottom of the lifting plate and is connected with a lower die matched with the upper die, the lower die is fixedly installed on the workbench, a containing groove is formed in the bottom of the upper die, an auxiliary pressing block which is arranged in an L-shaped structure is installed in the containing groove, a fifth cylinder is connected to the other side of the auxiliary pressing block, and the fifth cylinder is fixedly installed on the transverse plate.

Further inject, the alignment mechanism is including installing the locking piece on the workstation, the locking piece top is connected with the crossbeam, vertical alignment group is installed to the crossbeam, the crossbeam is being close to vertical alignment group department and is installing horizontal alignment group. Such structural design is convenient for straighten the work to the welding wire line.

Further inject, the wire guide seat is installed in the both sides locking of wire feeding wheel to the mount pad, the guide block is installed in the both sides of wire guide seat to the mount pad. Such structural design is convenient for carry out the direction to the welding wire line.

Further limit, the upper bending group is provided with a protection plate at the first gear, and the protection plate is arranged in an inverted U-shaped structure. The structural design has the effect of protecting the first gear.

Further limiting, and a rubber anti-slip pad is arranged on the pressing surface at the bottom of the auxiliary pressing block. Such structural design plays anti-skidding effect when supplementary compresses tightly to be difficult for pressing the welding wire line.

The utility model has the beneficial effects that: according to the welding wire bending machine, the straightening mechanism, the wire feeding mechanism, the bending mechanism, the cutting mechanism and the pressing forming mechanism are arranged, a plurality of processes are integrated, mechanical equipment is used for replacing manual operation, the production efficiency is improved, the welding wire can be quickly and conveniently bent, cut and pressed and formed, the produced welding wire can meet the use requirement, and the welding wire is uniform in shape and attractive in appearance.

Drawings

The utility model is further illustrated by the non-limiting examples given in the accompanying drawings;

FIG. 1 is a schematic structural diagram of a multi-process integrated welding wire bending machine according to an embodiment of the utility model;

FIG. 2 is a schematic structural diagram of a cross section of a bending mechanism of a multi-process integrated welding wire bending machine according to an embodiment of the utility model;

FIG. 3 is a schematic cross-sectional structure view of a cutting mechanism of a multi-process integrated welding wire bending machine according to an embodiment of the present invention;

FIG. 4 is a schematic structural diagram of a straightening mechanism of a multi-process integrated welding wire bending machine according to an embodiment of the present invention;

FIG. 5 is a schematic structural diagram of a wire feeding mechanism of a multi-process integrated welding wire bending machine according to an embodiment of the present invention;

FIG. 6 is a schematic structural diagram of a bending mechanism of the multi-process integrated welding wire bending machine according to the embodiment of the utility model;

FIG. 7 is a schematic structural diagram of a cutting mechanism of a multi-process integrated welding wire bending machine according to an embodiment of the present invention;

FIG. 8 is a schematic structural diagram of a press-forming mechanism of a multi-process integrated welding wire bending machine according to an embodiment of the present invention;

the main element symbols are as follows:

the bending device comprises a bending main body 1, a discharger 2, a workbench 3, a straightening mechanism 4, a wire feeding mechanism 5, a bending mechanism 6, a cutting mechanism 7, a pressing and forming mechanism 8, a material receiving groove 9, an operation table 10, an alarm indicator lamp 11, a mounting seat 12, a servo motor 13, a wire feeding wheel 14, a threaded seat 15, a threaded rod 16, a twisting block 17, a sliding block 18, a sliding seat 19, a sliding rail 20, a bearing 21, an auxiliary guide wheel 22, a mounting plate 23, an upper bending group 24, a lower bending group 25, a first air cylinder 26, a first gear seat 27, a first guide sliding seat 28, a first bearing plate 29, a first gear 30, a first crank shaft 31, a first eccentric seat 32, a first bending rod 33, a second air cylinder 34, a second gear seat 35, a second guide sliding seat 36, a second bearing plate 37, a second gear 38, a second crank shaft 39, a second eccentric seat 40, a second bending rod 41, a partition plate 42, a lock column 43, an adjusting seat 44, a third air cylinder 45, The device comprises a moving seat 46, a hydraulic cutter 47, a transverse plate 48, a vertical column 49, a fourth air cylinder 50, a pushing block 51, a lifting plate 52, a guide sleeve 53, an upper die 54, a lower die 55, a containing groove 56, an auxiliary pressing block 57, a fifth air cylinder 58, a locking block 59, a cross beam 60, a vertical straightening group 61, a horizontal straightening group 62, a wire guide seat 63, a guide block 64 and a protection plate 65.

Detailed Description

In order that those skilled in the art can better understand the present invention, the following technical solutions are further described with reference to the accompanying drawings and examples.

As shown in fig. 1-8, in the multi-process integrated welding wire bending machine of the present invention, a discharger 2 is installed on one side of the top of a bending main body 1, a workbench 3 is installed on one side of the discharger 2 of the bending main body 1, a straightening mechanism 4, a wire feeding mechanism 5, a bending mechanism 6, a cutting mechanism 7 and a pressing and forming mechanism 8 are sequentially installed on the surface of the workbench 3 from left to right, the cutting mechanism 7 is installed on the upper right side of the bending mechanism 6, the pressing and forming mechanism 8 is installed on the lower right side of the bending mechanism 6, a receiving groove 9 is installed on the workbench 3 at the position of the pressing and forming mechanism 8, an operation table 10 is installed on the top of the bending main body 1, and an alarm indicator 11 is installed on one side of the top of the bending main body 1;

the wire feeding mechanism 5 comprises a mounting seat 12 mounted on the workbench 3, a servo motor 13 is mounted on the mounting seat 12, a power output end of the servo motor 13 is connected with a wire feeding wheel 14, the wire feeding wheel 14 is mounted on the surface of the mounting seat 12, a threaded seat 15 is mounted at the top of the mounting seat 12, the threaded seat 15 is connected with a threaded rod 16, the top of the threaded rod 16 is connected with a twisting block 17, the bottom of the threaded rod 16 is connected with a sliding block 18, the sliding block 18 is connected with a sliding seat 19, the sliding seat 19 is slidably connected with a sliding rail 20, the sliding rail 20 is fixedly mounted on the mounting seat 12, a bearing 21 is mounted in the sliding block 18, the bearing 21 is connected with the threaded rod 16, and the sliding block 18 is hinged with an auxiliary guide wheel 22 at a position corresponding to the wire feeding wheel 14;

the bending mechanism 6 comprises an installation plate 23 which is locked and installed on the workbench 3, an upper bending group 24 is installed on the upper side of the installation plate 23, and a lower bending group 25 is installed on the lower side of the installation plate 23;

the upper bending group 24 comprises a first air cylinder 26, the power output end of the first air cylinder 26 is connected with a first tooth holder 27 which is arranged in an L-shaped structure, the first tooth holder 27 is connected with a first guide slide seat 28 in a sliding manner, the first guide slide seat 28 is connected with a first bearing plate 29, the first bearing plate 29 is installed on the installation plate 23, the first tooth holder 27 is connected with a first gear 30 in a meshing manner, the first gear 30 is installed on the upper side of the first bearing plate 29 in a rotating manner, the first gear 30 is connected with a first crank shaft 31, the bottom of the first crank shaft 31 is connected with a first eccentric holder 32, and the bottom of the first eccentric holder 32 is connected with a first bending rod 33;

the lower bending group 25 comprises a second air cylinder 34, the power output end of the second air cylinder 34 is connected with a second gear seat 35 which is arranged in an L-shaped structure, the second gear seat 35 is connected with a second guide sliding seat 36 in a sliding manner, the second guide sliding seat 36 is connected with a second bearing plate 37, the second bearing plate 37 is installed on the installation plate 23, the second gear seat 35 is connected with a second gear 38 in a meshing manner, the second gear 38 is rotatably installed at the lower side of the second bearing plate 37, the second gear 38 is connected with a second crank shaft 39, the top of the second crank shaft 39 is connected with a second eccentric seat 40, and the bottom of the second eccentric seat 40 is connected with a second bending rod 41;

a partition plate 42 is connected between the upper bending group 24 and the lower bending group 25, lock columns 43 are mounted at four corners of the bottom of the partition plate 42, and the lock columns 43 are locked and mounted on the workbench 3;

the cutting mechanism 7 comprises an adjusting seat 44, the adjusting seat 44 is provided with a third air cylinder 45, the power output end of the third air cylinder 45 is connected with a moving seat 46, and the moving seat 46 is provided with a hydraulic cutter 47;

press forming mechanism 8 to include diaphragm 48, four corners in diaphragm 48 bottom are connected with stand 49, stand 49 fixed mounting is on workstation 3, fourth cylinder 50 is installed at diaphragm 48 top, the power take off end of fourth cylinder 50 is connected with ejector pad 51, ejector pad 51 is connected with lifter plate 52, uide bushing 53 is installed in four corners of lifter plate 52, uide bushing 53 slides on stand 49, lifter plate 52 bottom fixed mounting has last mould 54, it is connected with assorted lower mould 55 to go up mould 54, lower mould 55 fixed mounting is on workstation 3, it is equipped with and accomodates groove 56 to go up mould 54 bottom, accomodate and install the supplementary compact heap 57 that is the setting of L shape structure in the groove 56, the opposite side of supplementary compact heap 57 is connected with fifth cylinder 58, fifth cylinder 58 fixed mounting is on diaphragm 48.

In the embodiment, when in use, welding wires are fed out through the feeding device 2 and are conveyed into the wire feeding mechanism 5, the wire feeding wheel 14 is driven to rotate through the servo motor 13, the twisting block 17 is adjusted, the twisting block 17 drives the threaded rod 16, the threaded rod 16 pushes the sliding block 18 downwards along the threaded seat 15, the sliding block 18 drives the sliding seat 19 to move downwards along the sliding rail 20, the auxiliary guide wheel 22 is matched with the wire feeding wheel 14, so that the welding wires are conveyed, the welding wires pass through the straightening mechanism 4 before reaching the wire feeding mechanism 5, the welding wires are horizontally straightened in the horizontal and vertical directions through the straightening mechanism 4, the welding wires enter the bending mechanism 6 after being conveyed through the wire feeding mechanism 5, at the moment, the welding wires are positioned between the first bending rod 33 and the second bending rod 41, the second air cylinder 34 is controlled to be started firstly, the second air cylinder 34 pushes the second sliding seat 35 to slide along the second guide sliding seat 36, meanwhile, the second gear holder 35 drives the second gear 38 to rotate, the second gear 38 drives the second crank shaft 39, the second crank shaft 39 drives the second eccentric holder 40, the second eccentric holder 40 drives the second bending rod 41 to rotate 180 degrees around the first bending rod 33, so that the welding wire is bent into a U shape, then the second air cylinder 34 is controlled to drive the second bending rod 41 to reset, the wire feeding mechanism 5 is controlled to feed wires through the system, then the first air cylinder 26 is controlled, the first air cylinder 26 pushes the first gear holder 27 to slide along the first guide slide seat 28 and simultaneously drives the first gear 30 to rotate, the first gear 30 drives the first crank shaft 31, the first crank shaft 31 drives the first eccentric holder 32, the first eccentric holder 32 drives the first bending rod 33 to rotate 180 degrees around the second bending rod 41, the rear section of the welding wire is reversely bent into a U, a cycle is sequentially performed, and after 7 cycles are performed, the welding wire can be bent into a required shape, then the bent welding wire is conveyed into the pressing and forming mechanism 8, the fifth air cylinder 58 is controlled to be started at the same time, the fifth air cylinder 58 pushes the auxiliary pressing block 57 to press the bent welding wire on the lower die 55 downwards, the welding wire is pressed in an auxiliary mode, the left and right positions of the hydraulic cutter 47 are adjusted by controlling the adjusting seat 44, after the proper position is reached, the third air cylinder 45 is controlled, the third air cylinder 45 pushes the moving seat 46, the moving seat 46 pushes the hydraulic cutter 47 to move to the position needing to be cut, the welding wire is cut by the hydraulic cutter 47, finally the fourth air cylinder 50 is controlled, the fourth air cylinder 50 pushes the push block 51, the push block 51 pushes the lifting plate 52, the lifting plate 52 drives the guide sleeve 53 to push the upper die 54 downwards along the upright post 49, the upper die 54 is moved to the lower die 55 to press, the upper die is bent and formed, after the forming, the upper die 54 and the auxiliary pressing block 57 are reset, the formed welding wire falls into the receiving groove 9.

Preferably, the straightening mechanism 4 comprises a lock block 59 mounted on the worktable 3, a beam 60 is connected to the top of the lock block 59, a vertical straightening group 61 is mounted on the beam 60, and a horizontal straightening group 62 is mounted on the beam 60 near the vertical straightening group 61. Such structural design is convenient for straighten the work to the welding wire line. In practice, other configurations of the straightening mechanism 4 may be considered as the case may be.

Preferably, the installation base 12 is provided with a guide base 63 locked on both sides of the wire feeding wheel 14, and the installation base 12 is provided with guide blocks 64 on both sides of the guide base 63. Such structural design is convenient for carry out the direction to the welding wire line. In fact, other guide configurations of the mounting block 12 may be considered as the case may be.

Preferably, the upper bending set 24 is provided with a protection plate 65 at the first gear 30, and the protection plate 65 is provided in an inverted u-shaped structure. The structural design has the protection effect on the position of the first gear 30. In fact, other protective structural shapes of the shield plate 65 may be considered as the case may be.

Preferably, the bottom pressing surface of the auxiliary pressing block 57 is provided with a rubber non-slip pad. Such structural design plays anti-skidding effect when supplementary compresses tightly to be difficult for pressing the welding wire line. In fact, other configurations of the auxiliary compression block 57 may be considered as appropriate.

The foregoing embodiments are merely illustrative of the principles of the present invention and its efficacy, and are not to be construed as limiting the utility model. Those skilled in the art can modify or change the above-described embodiments without departing from the spirit and scope of the present invention. Accordingly, it is intended that all equivalent modifications or changes which may be made by those skilled in the art without departing from the spirit and scope of the present invention as defined in the appended claims.

Claims (5)

1. Integrative integrated welding wire bender of multiple operation, its characterized in that: the bending machine comprises a bending main body (1), wherein a material discharger (2) is installed on one side of the top of the bending main body (1), a workbench (3) is installed on one side of the material discharger (2) of the bending main body (1), a straightening mechanism (4), a wire feeding mechanism (5), a bending mechanism (6), a cutting mechanism (7) and a pressing and forming mechanism (8) are sequentially installed on the surface of the workbench (3) from left to right, the cutting mechanism (7) is installed on the upper right side of the bending mechanism (6), the pressing and forming mechanism (8) is installed on the lower right side of the bending mechanism (6), a material receiving groove (9) is installed on the workbench (3) at the pressing and forming mechanism (8), an operating table (10) is installed on the top of the bending main body (1), and an alarm indicator lamp (11) is installed on one side of the top of the bending main body (1);

the wire feeding mechanism (5) comprises a mounting seat (12) mounted on a workbench (3), a servo motor (13) is mounted on the mounting seat (12), a power output end of the servo motor (13) is connected with a wire feeding wheel (14), the wire feeding wheel (14) is mounted on the surface of the mounting seat (12), a threaded seat (15) is mounted at the top of the mounting seat (12), the threaded seat (15) is connected with a threaded rod (16), the top of the threaded rod (16) is connected with a twisting block (17), the bottom of the threaded rod (16) is connected with a sliding block (18), the sliding block (18) is connected with a sliding seat (19), the sliding seat (19) is slidably connected with a sliding rail (20), the sliding rail (20) is fixedly mounted on the mounting seat (12), a bearing (21) is mounted in the sliding block (18), and the bearing (21) is connected with the threaded rod (16), the slide block (18) is hinged with an auxiliary guide wheel (22) at the position corresponding to the wire feeding wheel (14);

the bending mechanism (6) comprises an installation plate (23) which is installed on the workbench (3) in a locking mode, an upper bending group (24) is installed on the upper side of the installation plate (23), and a lower bending group (25) is installed on the lower side of the installation plate (23);

the upper bending group (24) comprises a first air cylinder (26), the power output end of the first air cylinder (26) is connected with a first tooth holder (27) which is arranged in an L-shaped structure, the first tooth holder (27) is connected with a first guide sliding seat (28) in a sliding mode, the first guide sliding seat (28) is connected with a first bearing plate (29), the first bearing plate (29) is installed on the installation plate (23), the first tooth holder (27) is connected with a first gear (30) in a meshing mode, the first gear (30) is installed on the upper side of the first bearing plate (29) in a rotating mode, the first gear (30) is connected with a first crank shaft (31), the bottom of the first crank shaft (31) is connected with a first eccentric holder (32), and the bottom of the first eccentric holder (32) is connected with a first bending rod (33);

the lower bending group (25) comprises a second air cylinder (34), the power output end of the second air cylinder (34) is connected with a second tooth holder (35) which is arranged in an L-shaped structure, the second tooth holder (35) is connected with a second guide sliding seat (36) in a sliding mode, the second guide sliding seat (36) is connected with a second bearing plate (37), the second bearing plate (37) is installed on the installation plate (23), the second tooth holder (35) is connected with a second gear (38) in a meshing mode, the second gear (38) is installed on the lower side of the second bearing plate (37) in a rotating mode, the second gear (38) is connected with a second crank shaft (39), the top of the second crank shaft (39) is connected with a second eccentric holder (40), and the bottom of the second eccentric holder (40) is connected with a second bending rod (41);

a partition plate (42) is connected between the upper bending group (24) and the lower bending group (25), lock columns (43) are mounted at four corners of the bottom of the partition plate (42), and the lock columns (43) are mounted on the workbench (3) in a locking manner;

the cutting mechanism (7) comprises an adjusting seat (44), a third air cylinder (45) is installed on the adjusting seat (44), the power output end of the third air cylinder (45) is connected with a moving seat (46), and a hydraulic cutter (47) is installed on the moving seat (46);

the pressing and forming mechanism (8) comprises a transverse plate (48), stand columns (49) are connected to four corners of the bottom of the transverse plate (48), the stand columns (49) are fixedly mounted on the workbench (3), a fourth air cylinder (50) is mounted at the top of the transverse plate (48), a power output end of the fourth air cylinder (50) is connected with a push block (51), the push block (51) is connected with a lifting plate (52), guide sleeves (53) are mounted at four corners of the lifting plate (52), the guide sleeves (53) slide on the stand columns (49), an upper die (54) is fixedly mounted at the bottom of the lifting plate (52), the upper die (54) is connected with a matched lower die (55), the lower die (55) is fixedly mounted on the workbench (3), a containing groove (56) is formed in the bottom of the upper die (54), and an auxiliary pressing block (57) arranged in an L-shaped structure is mounted in the containing groove (56), the other side of the auxiliary pressing block (57) is connected with a fifth air cylinder (58), and the fifth air cylinder (58) is fixedly installed on the transverse plate (48).

2. The multiple process integrated welding wire bending machine according to claim 1, characterized in that: straightening mechanism (4) are including installing locking piece (59) on workstation (3), locking piece (59) top is connected with crossbeam (60), vertical alignment group (61) is installed in crossbeam (60), crossbeam (60) are being close to vertical alignment group (61) department and are installing horizontal alignment group (62).

3. The multiple process integrated welding wire bending machine according to claim 2, characterized in that: the wire guide seat (63) is installed in the locking of both sides of wire feeding wheel (14) in mount pad (12), guide block (64) is installed in the both sides of wire guide seat (63) in mount pad (12).

4. The multiple process integrated welding wire bending machine according to claim 3, characterized in that: the upper bending group (24) is provided with a protection plate (65) at the first gear (30), and the protection plate (65) is arranged in an inverted U-shaped structure.

5. The multiple process integrated welding wire bending machine according to claim 4, characterized in that: and a rubber anti-skid pad is arranged on the pressing surface at the bottom of the auxiliary pressing block (57).

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