CN219105923U - Multi-wire feeding equipment - Google Patents

Abstract

The utility model aims to provide a multi-wire feeding device capable of feeding a plurality of wires simultaneously and paying out a specified wire in a winding period of the specified wire. The wire feeding device comprises a fixing frame, a lifting device, a translation device and a multi-wire clutch wire feeding device, wherein the lifting device is adaptively arranged on the fixing frame, the translation device is adaptively and movably arranged on the lifting device, the multi-wire clutch wire feeding device is adaptively arranged on the translation device, a wire separating mechanism, a clutch wire pressing and releasing mechanism and a wire driving wire separating mechanism are arranged on the multi-wire clutch wire feeding device, external multi-wire enters the clutch wire pressing and releasing mechanism and the wire driving wire separating mechanism in sequence after being led into the wire separating mechanism through guiding wire separating wires, the clutch wire pressing and releasing mechanism carries out multi-wire clutch release on the external multi-wire, and the wire driving wire separating mechanism carries out guiding same-hole wire outlet on the wire which is released through multi-wire clutch. The utility model is suitable for the field of winding processing of magnetic ring inductors.

Description

Multi-wire feeding equipment

Technical Field

The utility model relates to a multi-wire feeding device.

Background

In the production and manufacturing process of the magnetic ring inductor, the magnetic ring inductor is an important process for feeding wires before winding the magnetic ring. In the past, the wire feeding of the wires wound on the magnetic ring adopts single-wire feeding, namely, each wire feeding device only supports the transportation of single-type wires, and different wire feeding devices are required to be respectively equipped for different wires. When magnetic ring inductors which need to be wound with different wires at the same time are required to be produced and wound, a plurality of wire feeding devices are correspondingly arranged, then a plurality of sequentially wire feeding and winding devices are arranged, and a reciprocating device is additionally arranged to ensure that the winding mechanism can have a back-and-forth movement function for winding the wires at the same time. Thus, the cost of the wire feeding equipment is increased, the winding process is complicated due to the additional reciprocating equipment, and the winding efficiency is affected while the cost is increased.

Disclosure of Invention

The utility model aims to solve the technical problem of overcoming the defects of the prior art and providing multi-wire feeding equipment capable of feeding various wires simultaneously and paying off the appointed wires in a winding period of the appointed wires.

The technical scheme adopted by the utility model is as follows: the wire feeding device comprises a fixing frame, a lifting device, a translation device and a multi-wire clutch wire feeding device, wherein the lifting device is adaptively arranged on the fixing frame, the translation device is adaptively and movably arranged on the lifting device, the multi-wire clutch wire feeding device is adaptively arranged on the translation device, a wire separating mechanism, a clutch wire pressing and releasing mechanism and a wire driving wire separating mechanism are arranged on the multi-wire clutch wire feeding device, external multi-wire enters the clutch wire pressing and releasing mechanism and the wire driving wire separating mechanism in sequence after being led into the wire separating mechanism through guiding wire separating wires, the clutch wire pressing and releasing mechanism carries out multi-wire clutch release on the external multi-wire, and the wire driving wire separating mechanism carries out guiding same-hole wire outlet on the wire which is released through multi-wire clutch.

The multi-wire clutch wire feeding device comprises a translation device, and is characterized in that the multi-wire clutch wire feeding device further comprises a vertical fixing plate which is arranged on the translation device in an adapting mode, the wire splitting mechanism comprises a wire passing plate which is guided by a hole, a wire distributing guide plate, a directional wire pressing plate frame and a directional wire pressing plate, the wire passing plate which is guided by the hole and is respectively and fixedly arranged on the vertical fixing plate is adapted to be arranged on the directional wire pressing plate frame, the wire distributing plate is adapted to be arranged above the wire distributing plate which is guided by the hole, the directional wire pressing plate is arranged on the directional wire pressing plate frame through a wire pressing adjusting shaft, a directional wire passing position is reserved between the directional wire pressing plate and the directional wire pressing plate frame, the directional wire passing position is adapted to be arranged below the wire distributing plate which is guided by the hole, a plurality of second guide wire passing holes are uniformly arranged on the wire distributing plate, and a plurality of second guide wire passing holes are adapted to be arranged on the first guide wire passing plate, and the directional wire passing plate is adapted to be arranged below the first guide wire passing plate and the directional wire passing plate.

The multi-line clutch wire feeding device also comprises a fixed frame body, the fixed frame body is fixedly connected with the vertical fixed plate and is arranged below the directional wire pressing plate frame, the clutch wire pressing and releasing mechanism comprises a cylinder fixed plate, a plurality of clutch cylinders, a plurality of wire pressing clutch pieces and a driven wire passing roller, the cylinder fixed plate is fixedly arranged at the top of the fixed frame body, the clutch cylinders are uniformly and horizontally fixedly arranged at the back of the cylinder fixed plate, clutch piece placing positions are arranged at the top of the fixed frame body, the output ends of the clutch cylinders respectively and horizontally penetrate through the cylinder fixed plate and are adapted to be movably arranged above the clutch piece placing positions, the wire pressing clutch pieces are adapted to be vertically and correspondingly arranged in the clutch piece placing positions, the top ends of the wire pressing clutch members are respectively hinged with the output end of one clutch cylinder, the bottom ends of the wire pressing clutch members are respectively hinged with the two side walls of the clutch member placing position through hinge shafts, the two ends of the driven wire passing roller are respectively and flexibly connected with the two side walls of the clutch member placing position and are respectively and flexibly arranged in front of the wire pressing clutch members, a clutch wire passing space is flexibly reserved between the driven wire passing roller and the wire pressing clutch members, the top of the wire pressing clutch members is provided with a horizontal boss, a third guide wire passing hole is respectively and flexibly arranged on the horizontal boss, the third guide wire passing hole is respectively and flexibly arranged below the directional wire passing position and above the clutch wire passing space, a wire passing backboard is also arranged on the fixed frame body, a plurality of wire passing guide hole slots are correspondingly arranged on the front of the wire passing backboard, the wire passing backboard is adapted to the lower part of the wire pressing clutch piece, the wire inlet end of the wire passing guiding hole groove is correspondingly adapted to the lower part of the third guiding wire passing hole, the wire passing guiding hole grooves vertically downwards penetrate through the wire passing backboard and mutually bend along the wire passing backboard to meet, the wire outlet ends of the wire passing guiding hole grooves meet at one place to form a wire collecting wire outlet end, an upper wire protecting plate and a lower wire protecting plate are arranged on the front surface of the wire passing backboard, and the upper wire protecting plate and the lower wire protecting plate are respectively adapted to the front of the wire passing guiding hole groove.

The wire drive branching mechanism comprises a driving motor, a rolling shaft, a pneumatic tangent line group and a wire collecting outlet nozzle, wherein the output end of the driving motor is in transmission connection with the output end of the rolling shaft, the rolling shaft is in adaptive rotation connection with the wire inlet end of the wire collecting outlet nozzle through an easily-detachable retention mechanism, the rolling shaft is adaptive to the fixed frame body and is arranged between the upper wire protecting plate and the lower wire protecting plate, the rolling shaft is adaptive to the lower part of the wire protecting plate and is movably arranged in front of the wire guide hole groove, the wire collecting outlet nozzle is adaptive to the bottom of the fixed frame body and is adaptive to the wire collecting backboard and the lower wire protecting plate, the wire collecting outlet end is adaptive to the wire inlet end of the wire collecting outlet nozzle, the pneumatic tangent line group is fixedly and horizontally arranged at the bottom of the fixed frame body and is arranged at the rear of the wire collecting backboard, and the output tangent line end of the pneumatic tangent line group is adaptive to the wire outlet nozzle and is movably arranged between the wire outlet end of the wire collecting outlet nozzle and the wire inlet end.

The easy-to-detach retention mechanism comprises a hinged lock arm and a handle piece, wherein the head end of the hinged lock arm is in fit with the side wall of the fixed frame body, the handle piece is in fit with the tail end of the hinged lock arm, the middle section of the hinged lock arm is provided with a first rotating part matched with the rolling shaft, the lower part of the side wall of the fixed frame body is provided with a second rotating part corresponding to the first rotating part, and the end part of the rolling shaft is in fit with and rotates between the first rotating part and the second rotating part.

The translation device comprises a translation fixed plate, a translation sliding rail is arranged on the translation fixed plate in an adapting mode, the vertical fixed plate is movably arranged on the translation sliding rail in an adapting mode, a translation air cylinder is fixedly arranged on one side of the translation fixed plate, a translation limiting plate is fixedly arranged on the other side of the translation fixed plate, the output end of the translation air cylinder is fixedly connected with one side edge of the vertical fixed plate, and the translation limiting plate corresponds to the other side edge of the vertical fixed plate.

The lifting device comprises a rotating motor, the rotating motor is fixedly arranged at the top of the fixing frame through a motor supporting plate, the output end of the rotating motor vertically passes through the motor supporting plate downwards, a vertical screw rod is connected to the rotating motor through a coupler in an adapting mode, a screw rod lifting piece is arranged on the vertical screw rod in an adapting mode, a lifting induction piece is arranged on the screw rod lifting piece, an inductor matched with the lifting induction piece is arranged on the fixing frame, lifting induction piece adapting lifting movement is arranged in the inductor, lifting sliding rails are arranged on the fixing frame in an adapting mode, and the translation fixing plate is movably arranged on the lifting sliding rails and fixedly connected with the screw rod lifting piece.

The beneficial effects are that: according to the utility model, wires with different external types enter the clutch pay-off and wire-drive wire-distribution mechanism sequentially after being led and led by the wire-distribution mechanism, the clutch pay-off and wire-drive wire-distribution mechanism carries out multi-wire clutch release on the external multi-wire wires, and the wire-drive wire-distribution mechanism guides and leads the wires released by the double-wire clutch release to be led out from the same hole, so that the same equipment can carry out wire feeding on multiple wires and pay off on the appointed wires within appointed wire-winding time, and the equipment cost is effectively saved.

Drawings

FIG. 1 is a schematic perspective view of the whole of the present utility model;

FIG. 2 is an enlarged schematic view at A in FIG. 1;

fig. 3 is a schematic representation of the rear perspective structure of the present utility model mounted on an external winding machine.

Detailed Description

As shown in fig. 1, 2 and 3, the utility model comprises a fixing frame 1, a lifting device, a translation device and a multi-wire clutch wire feeding device, wherein the lifting device is adaptively arranged on the fixing frame 1, the translation device is adaptively and movably arranged on the lifting device, the multi-wire clutch wire feeding device is adaptively arranged on the translation device, a wire separating mechanism, a clutch wire pressing and releasing mechanism and a wire driving wire separating mechanism are arranged on the multi-wire clutch wire feeding device, external multi-wire enters the clutch wire pressing and releasing mechanism and the wire driving wire separating mechanism in sequence after being guided and separated by the wire separating mechanism, the clutch wire pressing and releasing mechanism carries out multi-wire clutch release on the external multi-wire, and the wire driving wire separating mechanism carries out guiding and same-hole wire outlet on the wire which is released by multi-wire clutch.

The multi-wire clutch wire feeding device further comprises a vertical fixing plate 20 which is movably arranged on the translation device in an adapting mode, the wire splitting mechanism comprises a same-hole guide wire passing plate 21, a split-hole guide wire passing plate 22, a directional wire pressing plate frame 23 and a directional wire pressing plate 24, the same-hole guide wire passing plate 21 and the directional wire pressing plate frame 23 are respectively and fixedly arranged on the vertical fixing plate 20, the split-hole guide wire passing plate 22 is adapted to be arranged on the directional wire pressing plate frame 23, the same-hole guide wire passing plate 21 is adapted to be arranged above the split-hole guide wire passing plate 22, the directional wire pressing plate 24 is arranged on the directional wire pressing plate frame 23 in an adapting mode through a wire pressing adjusting shaft 25, a directional wire passing position 26 is reserved between the directional wire pressing plate 24 and the directional wire pressing plate frame 23, the directional wire passing position 26 is adapted to be arranged below the split-hole guide wire passing plate 22, a first guide wire passing hole 27 is uniformly arranged on the split-hole guide wire passing plate 21, a second guide wire passing hole 28 is uniformly arranged on the split-hole guide wire passing plate 22, and the second guide wire passing hole 28 is adapted to be arranged below the first guide wire passing hole 27 and is adapted to be arranged above the directional wire passing position 26.

The multi-line clutch wire feeding device also comprises a fixed frame body 35, the fixed frame body 35 is fixedly connected and arranged on the vertical fixed plate 20 and below the directional wire pressing plate frame 23, the clutch wire pressing and releasing mechanism comprises a cylinder fixed plate 31, a clutch cylinder 32, a wire pressing and releasing piece 33 and a driven wire passing roller 34, the cylinder fixed plate 31 is fixedly arranged at the top of the fixed frame body 35, the clutch cylinder 32 is uniformly and horizontally fixedly arranged at the back of the cylinder fixed plate 31, a clutch piece placing position 351 is arranged at the top of the fixed frame body 35, the output end of the clutch cylinder 32 respectively horizontally passes through the cylinder fixed plate 31 and is adapted to be movably arranged above the clutch piece placing position 351, the wire pressing and releasing piece 33 is adapted to be vertically and correspondingly arranged in the clutch piece placing position 351, the top end of the wire pressing and releasing piece 33 is correspondingly hinged with the output end of one clutch cylinder 32 respectively, the bottom end of the line pressing clutch piece 33 is respectively hinged with two side walls of the clutch piece placing position 351 through a hinge shaft 333, two ends of the driven line passing roller 34 are adapted to be movably connected to the two side walls of the clutch piece placing position 351 and are adapted to be arranged in front of the line pressing clutch piece 33, a clutch line passing space is movably reserved between the driven line passing roller 34 and the line pressing clutch piece 33, the top of the line pressing clutch piece 33 is provided with a horizontal boss 331, a third guiding line passing hole 332 is adapted to be arranged on the horizontal boss 331, the third guiding line passing hole 332 is adapted to be arranged below the directional line passing position 26 and is adapted to be arranged above the clutch line passing space, a line passing backboard 36 is also arranged on the fixed frame body 35, two line passing guiding hole grooves 361 are correspondingly arranged on the front surface of the line passing backboard 36, the line passing backboard 36 is adapted to be arranged below the line pressing clutch piece 33, the line inlet end of the line passing guiding hole groove 361 is correspondingly adapted to be arranged below the third guiding line passing hole 332, the two wire guide hole slots 361 are vertically downward from the wire back plate 36 and are mutually bent and converged, the wire outlet ends of the two wire guide hole slots 361 are converged at one position and form a wire converging wire outlet end, an upper wire protecting plate 362 and a lower wire protecting plate 363 are arranged on the front surface of the wire back plate 36, and the upper wire protecting plate 362 and the lower wire protecting plate 363 are respectively and suitably arranged in front of the wire guide hole slots 361.

The wire driving branching mechanism comprises a driving motor 41, a wire rolling shaft 42, a pneumatic tangent line group 43 and a wire collecting outlet nozzle 44, wherein the output end of the driving motor 41 is in transmission connection with the output end of the wire rolling shaft 42 through a conveying belt 411, the wire rolling shaft 42 is in adaptive rotation connection on the fixed frame body 35 through an easy-disassembly fixing mechanism and is adaptive to be arranged between an upper wire protecting plate 362 and a lower wire protecting plate 363, the wire rolling shaft 42 is adaptive to be arranged below the wire protecting plate 361 and is movably arranged in front of a wire guiding hole groove 361, the wire collecting outlet nozzle 44 is adaptive to be arranged at the bottom of the fixed frame body 35 and is adaptive to be arranged below the wire passing back plate 36 and the lower wire protecting plate 363, the wire collecting outlet end is adaptive to be in butt joint with the wire inlet end of the wire collecting outlet nozzle 44, the pneumatic tangent line group 43 is fixedly and horizontally arranged at the bottom of the fixed frame body 35 and is arranged at the rear of the wire passing back plate 36, and the output tangent line end of the pneumatic tangent line group 43 is adaptive to be movably arranged between the wire collecting outlet nozzle 44 and the wire collecting outlet end.

The easy-to-detach retention mechanism includes a hinge lock arm 51 and a grip member 52, a head end of the hinge lock arm 51 is adapted to be hinged on a side wall of the fixed frame body 35, the grip member 52 is adapted to be hinged on a tip of the hinge lock arm 51, a middle section of the hinge lock arm 51 is provided with a first rotation portion 511 adapted to the spool 42, a lower portion of the side wall of the fixed frame body 35 is provided with a second rotation portion corresponding to the first rotation portion 511, and an end portion of the spool 42 is adapted to be rotated between the first rotation portion 511 and the second rotation portion. The handle 52 can push and pull the hinged lock arm 51, thereby achieving the purpose of opening and closing the hinged lock arm 51 and facilitating the disassembly and assembly of the spool 42.

The translation device comprises a translation fixing plate 61, a translation sliding rail 62 is arranged on the translation fixing plate 61 in an adapting mode, the vertical fixing plate 20 is movably arranged on the translation sliding rail 62 in an adapting mode, a translation air cylinder 63 is fixedly arranged on one side of the translation fixing plate 61, a translation limiting plate 64 is fixedly arranged on the other side of the translation fixing plate 61, the output end of the translation air cylinder 63 is fixedly connected with one side edge of the vertical fixing plate 20, and the translation limiting plate 64 corresponds to the other side edge of the vertical fixing plate 20. The horizontal position of the junction nozzle 44 can be regulated by the translation means.

The lifting device comprises a rotating motor 71, the rotating motor 71 is fixedly arranged at the top of a fixing frame 1 through a motor supporting plate 72, the output end of the rotating motor 71 vertically penetrates through the motor supporting plate 72 downwards, the rotating motor 71 is connected with a vertical screw rod 74 through a coupler 73 in an adapting mode, a screw rod lifting piece 75 is arranged on the vertical screw rod 74 in an adapting mode, a lifting sensing piece 76 is arranged on the screw rod lifting piece 75, an inductor 77 matched with the lifting sensing piece 76 is arranged on the fixing frame 1, the lifting sensing piece 76 is arranged in the inductor 77 in an adapting lifting mode, a lifting sliding rail 78 is arranged on the fixing frame 1 in an adapting mode, and the translation fixing plate 61 is arranged on the lifting sliding rail 78 in an adapting mode and is fixedly connected with the screw rod lifting piece 75. The outlet height of the outlet nozzle 44 can be controlled by the lifting device.

Two wires with different types are led out from an external coiling device and pass through the first guide wire through holes 27 together, respectively pass through the two second guide wire through holes 28, respectively pass through the corresponding third guide wire through holes 332, the clutch wire through space and the wire through guide hole grooves 361 downwards through the directional wire through positions 26, and finally enter the wire collecting outlet nozzle 44 at the wire collecting outlet end.

When the wire is discharged, the driving motor 41 drives the rolling shaft 42 to rotate, and the wire in the wire passing guide hole groove 361 is driven by rolling friction of the rolling shaft 42 to be sent downwards to be discharged through the wire collecting outlet nozzle 44, so that the wire is cut off by moving forward the output wire cutting end of the pneumatic wire cutting group 43 after the wire is discharged.

When one of the wires needs to be led out, the line pressing clutch piece 33 corresponding to the line leading wire is driven by the corresponding clutch cylinder 32 to move away from the driven line passing roller 34, and the wire can be smoothly fed down in the corresponding clutch line passing space; meanwhile, the wire pressing clutch piece 33 corresponding to the other wire which does not need to be taken out is driven by the corresponding clutch cylinder 32 to act oppositely relative to the driven wire passing roller 34, so that the other wire is compacted between the wire pressing clutch piece 33 and the driven wire passing roller 34 and cannot be sent down.

The utility model is suitable for the field of winding processing of magnetic ring inductors.

Claims (7)

1. A multi-wire feeding device, characterized in that: including mount (1), elevating gear, translation device and multi-wire separation and reunion send traditional thread binding putting, the elevating gear adaptation sets up on mount (1), the translation device adaptation activity is arranged in on the elevating gear, multi-wire separation and reunion send traditional thread binding putting adaptation in on the translation device, be provided with branching mechanism, separation and reunion pressure unwrapping wire mechanism and wire rod drive branching mechanism on the multi-wire separation and reunion send traditional thread binding putting, outside multi-wire rod is passed through behind branching mechanism's direction separated time inlet wire get into separation and reunion pressure unwrapping wire mechanism and wire rod drive branching mechanism in proper order, separation and reunion pressure unwrapping wire mechanism carries out multi-wire separation and reunion to outside multi-wire rod, wire rod drive branching mechanism is led the same hole to the wire rod that is passed through multi-wire separation and reunion.

2. A multi-wire feeding apparatus according to claim 1, wherein: the multi-wire clutch wire feeding device further comprises a vertical fixing plate (20) which is movably arranged on the translation device in an adapting mode, the wire branching mechanism comprises a same-hole guide wire passing plate (21), a split-hole guide wire passing plate (22), a directional wire pressing plate frame (23) and a directional wire pressing plate (24), the same-hole guide wire passing plate (21) and the directional wire pressing plate frame (23) are respectively fixedly arranged on the vertical fixing plate (20), the split-hole guide wire passing plate (22) is adapted to be arranged on the directional wire pressing plate frame (23), the same-hole guide wire passing plate (21) is adapted to be arranged above the split-hole guide wire passing plate (22), the directional wire pressing plate (24) is adapted to be arranged on the directional wire pressing plate frame (23) through a wire pressing adjusting shaft (25), a directional wire pressing position (26) is reserved between the directional wire pressing plate (24) and the directional wire pressing plate frame (23), the directional wire pressing position (26) is adapted to be arranged below the split-hole guide wire passing plate (22), a plurality of second guide wires (27) are uniformly arranged on the same-hole guide wire passing plate (22), a plurality of second guiding wire through holes (28) are adapted to be arranged below the first guiding wire through holes (27) and are simultaneously adapted to be arranged above the directional wire through positions (26).

3. A multi-wire feeding apparatus according to claim 2, wherein: the multi-wire clutch wire feeding device further comprises a fixed frame body (35), the fixed frame body (35) is fixedly connected to the vertical fixed plate (20) and is arranged below the directional wire pressing plate frame (23), the clutch wire pressing and releasing mechanism comprises a cylinder fixed plate (31), a plurality of clutch cylinders (32), a plurality of wire pressing and releasing pieces (33) and a driven wire passing roller (34), the cylinder fixed plate (31) is fixedly arranged at the top of the fixed frame body (35), the clutch cylinders (32) are uniformly and horizontally fixedly arranged at the back of the cylinder fixed plate (31), clutch piece placing positions (351) are arranged at the top of the fixed frame body (35), the output ends of the clutch cylinders (32) respectively and horizontally penetrate through the cylinder fixed plate (31) and are adapted to be movably arranged above the clutch piece placing positions (351), the wire pressing and releasing pieces (33) are vertically and correspondingly arranged in the clutch piece placing positions (351) in an adapting mode, the top ends of the clutch pieces (33) are respectively and correspondingly hinged with the output ends of the clutch pieces (351) of the clutch shafts (33) respectively and the two clutch shafts (333) are hinged to the bottom ends of the clutch pieces (33) respectively, the two ends of the driven wire passing roller (34) are movably connected to the two side walls of the clutch piece placing position (351) in an adapting way and are adapted to the front of the wire pressing clutch piece (33), a clutch wire passing space is movably reserved between the driven wire passing roller (34) and the wire pressing clutch piece (33), a horizontal boss (331) is arranged at the top of the wire pressing clutch piece (33), a third guide wire passing hole (332) is formed in the horizontal boss (331) in an adapting way, the third guide wire passing hole (332) is adapted to the lower part of the directional wire passing position (26) and is adapted to the upper part of the clutch wire passing space, a wire passing backboard (36) is further arranged on the fixed frame body (35), a plurality of wire passing guide hole grooves (361) are correspondingly formed in the front of the wire passing backboard (36), the wire passing backboard (36) is adapted to the lower part of the wire pressing clutch piece (33), the end of the wire passing guide hole groove (361) is correspondingly adapted to the lower part of the wire passing groove (332), a plurality of wire passing holes (361) are correspondingly arranged at the wire passing holes (36) and are formed from the upper end of the wire passing backboard (36) to the lower end of the wire passing groove (361) and are mutually connected with one another, a plurality of wire passing guide grooves (363) are formed along the upper end of the wire passing grooves (361), the upper guard plate (362) and the lower guard plate (363) are respectively fitted in front of the wire guide hole groove (361).

4. A multi-wire feeding apparatus according to claim 3, wherein: the wire rod drive branching mechanism comprises a driving motor (41), a wire rolling shaft (42), a pneumatic tangent line group (43) and a wire converging outlet nozzle (44), wherein the output end of the driving motor (41) is in transmission connection with the output end of the wire rolling shaft (42), the wire rolling shaft (42) is in transmission connection with the fixed frame body (35) through the adapting rotation of the easy-disassembly fixing mechanism, the wire rolling shaft is adapted between the upper wire protecting plate (362) and the lower wire protecting plate (363), the wire rolling shaft (42) is adapted below the wire protecting plate (362) and is movably arranged in front of the wire converging guide hole groove (361), the wire converging outlet nozzle (44) is adapted to be arranged at the bottom of the fixed frame body (35) and is adapted to be arranged below the wire converging backplate (36) and the lower wire protecting plate (363), the wire converging outlet end is in adaptation with the end of the wire converging outlet nozzle (44) and is in butt joint with the end of the wire converging nozzle (362), and the pneumatic tangent line outlet nozzle (43) is arranged at the bottom of the fixed wire converging outlet groove (35), and the wire converging outlet nozzle (43) is arranged at the bottom of the fixed wire converging outlet groove (35).

5. A multi-wire feeding apparatus according to claim 4, wherein: the easy-to-detach retention mechanism comprises a hinged lock arm (51) and a handle piece (52), wherein the head end of the hinged lock arm (51) is hinged to the side wall of the fixed frame body (35), the handle piece (52) is hinged to the tail end of the hinged lock arm (51), a first rotating part (511) matched with the thread rolling shaft (42) is arranged in the middle section of the hinged lock arm (51), a second rotating part corresponding to the first rotating part (511) is arranged at the lower part of the side wall of the fixed frame body (35), and the end part of the thread rolling shaft (42) is rotatably arranged between the first rotating part (511) and the second rotating part in an adaptive mode.

6. A multi-wire feeding apparatus according to claim 2, wherein: the translation device comprises a translation fixed plate (61), a translation sliding rail (62) is arranged on the translation fixed plate (61) in an adapting mode, the vertical fixed plate (20) is movably arranged on the translation sliding rail (62), a translation air cylinder (63) is fixedly arranged on one side of the translation fixed plate (61), a translation limiting plate (64) is fixedly arranged on the other side of the translation fixed plate (61), the output end of the translation air cylinder (63) is fixedly connected with one side edge of the vertical fixed plate (20), and the translation limiting plate (64) corresponds to the other side edge of the vertical fixed plate (20).

7. A multi-wire feeding apparatus according to claim 6, wherein: the lifting device comprises a rotating motor (71), the rotating motor (71) is fixedly arranged at the top of a fixing frame (1) through a motor supporting plate (72), the output end of the rotating motor (71) vertically passes through the motor supporting plate (72) downwards, a vertical screw rod (74) is connected to the rotating motor (71) through a coupler (73) in an adapting mode, a screw rod lifting piece (75) is arranged on the vertical screw rod (74) in an adapting mode, a lifting induction piece (76) is arranged on the screw rod lifting piece (75), an inductor (77) adapting to the lifting induction piece (76) is arranged on the fixing frame (1), lifting induction pieces (76) are adapted to lift and move in the inductor (77), lifting sliding rails (78) are arranged on the fixing frame (1) in an adapting mode, and the lifting fixing plate (61) is fixedly connected with the screw rod lifting piece (75).

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