CN115763059A - Multi-wire feeding equipment - Google Patents

Abstract

The invention aims to provide a multi-wire feeding device which can simultaneously feed various wires and pay off the specified wires in the winding time period of the specified wires. The multi-wire clutch 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 arranged on the fixing frame in a matching mode, the translation device is movably arranged on the lifting device in a matching mode, the multi-wire clutch wire feeding device is arranged on the translation device in a matching mode, a wire dividing mechanism, a clutch pressure wire releasing mechanism and a wire driving wire dividing mechanism are arranged on the multi-wire clutch wire feeding device, external multi-wire wires enter the clutch pressure wire releasing mechanism and the wire driving wire dividing mechanism in sequence after being led in through guide wire dividing of the wire dividing mechanism, the clutch pressure wire releasing mechanism releases the external multi-wire wires in a multi-wire clutch mode, and the wire driving wire dividing mechanism conducts guide same-hole wire outlet on the wires released in the multi-wire clutch mode. The invention is suitable for the field of winding processing of magnetic ring inductors.

Description

Multi-wire feeding equipment

Technical Field

The invention relates to a multi-wire feeding device.

Background

In the production and manufacturing process of the magnetic ring inductor, the wire feeding before the winding of the magnetic ring is an important process. In the past, the wire feeding of the wire wound on the magnetic ring adopts single-wire feeding, namely, each wire feeding device only supports the feeding of a single wire, and different wire feeding devices are respectively arranged for different wires. When a magnetic ring inductor which needs to be wound with different wires at the same time at intervals is to be produced and wound, a plurality of wire feeding devices need to be correspondingly arranged, then a plurality of wire feeding devices are adopted for sequential wire feeding and winding, and reciprocating equipment is additionally arranged to ensure that the winding mechanism can have the function of reciprocating motion for winding the wires at the intervals. Therefore, the cost of the wire feeding equipment is increased, the winding process is complicated due to the additional arrangement of the reciprocating equipment, and the winding efficiency is influenced while the cost is increased.

Disclosure of Invention

The invention aims to overcome the defects of the prior art and provides a multi-wire feeding device which can simultaneously feed various wires and pay off the specified wires in the winding time period of the specified wires.

The technical scheme adopted by the invention is as follows: the multi-wire clutch 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 arranged on the fixing frame in an adaptive mode, the translation device is movably arranged on the lifting device in an adaptive mode, the multi-wire clutch wire feeding device is arranged on the translation device in an adaptive mode, a wire dividing mechanism, a clutch pressure wire releasing mechanism and a wire driving wire dividing mechanism are arranged on the multi-wire clutch wire feeding device, external multi-wire wires enter the clutch pressure wire releasing mechanism and the wire driving wire dividing mechanism in sequence after entering wires through guide wire dividing of the wire dividing mechanism, the clutch pressure wire releasing mechanism releases the external multi-wire in a multi-wire clutch mode, and the wire driving wire dividing mechanism conducts guide same-hole wire outlet on the wires released through the multi-wire clutch mode.

The multi-thread separation and reunion send traditional thread binding putting still includes that the adaptation activity sets up vertical fixed plate on the translation device, branching mechanism includes with the hole direction cross the line board, divide the hole direction to cross line board, directional line board frame and directional line board, with the hole direction cross the line board and directional line board frame is fixed the setting respectively on the vertical fixed plate, divide the hole direction to cross the line board adaptation setting and be in on the directional line board frame, with the hole direction cross the line board adaptation and correspond and arrange in divide the hole direction to cross the top of line board, directional line board passes through line ball regulating spindle adaptation and sets up on the directional line board frame, directional line board and leave between the directional line board frame and be equipped with directional line bit, directional line bit adaptation is arranged in divide the hole direction to cross the below of line board, be provided with first direction line hole on the same hole direction cross the line board, evenly be provided with a plurality of second direction cross the line hole adaptation on the hole direction board, a plurality of second direction cross the line hole adaptation and arrange in the below of first direction line hole and the adaptation corresponds and arrange in the top of directional line bit simultaneously.

The multi-line clutch wire feeding device further comprises a fixed frame body, the fixed frame body is fixedly connected with and arranged on the vertical fixed plate and is arranged below the directional wire pressing plate frame, the clutch pressure wire releasing mechanism comprises a cylinder fixed plate, a plurality of clutch cylinders, a plurality of wire pressing clutch parts and driven wire passing rollers, the cylinder fixed plate is fixedly arranged at the top of the fixed frame body, the plurality of clutch cylinders are uniformly and horizontally fixedly arranged on the back surface of the cylinder fixed plate, clutch part releasing positions are arranged on the top of the fixed frame body, the output ends of the plurality of clutch cylinders respectively movably and horizontally penetrate through the cylinder fixed plate and are movably matched and movably arranged above the clutch part releasing positions, the plurality of wire pressing clutch parts are vertically and correspondingly arranged in the clutch part releasing positions, the top ends of the plurality of wire pressing clutch parts are respectively and correspondingly hinged with the output end of one clutch cylinder, the bottom ends of the plurality of wire pressing clutch parts are respectively hinged with two side walls of the clutch part releasing positions through hinge shafts, two side walls of the driven wire pressing clutch parts are movably connected to two side walls of the clutch part releasing positions and are matched with the clutch part releasing positions, a third clutch part guiding groove is arranged above the clutch part guiding groove, a clutch part guiding groove is arranged above the clutch plate, a clutch part guiding groove is arranged above the clutch part guiding groove is arranged on the clutch plate, the wire passing back plate is arranged below the wire pressing clutch piece in an adaptive mode, the wire inlet ends of the wire passing guide hole grooves are correspondingly arranged below the third wire passing guide hole in an adaptive mode, the plurality of wire passing guide hole grooves vertically downwards extend from the wire passing back plate and are mutually bent and converged, the wire outlet ends of the plurality of wire passing guide hole grooves are converged at one position to form a wire converging wire outlet end, an upper wire protecting plate and a lower wire protecting plate are arranged on the front face of the wire passing back plate, and the upper wire protecting plate and the lower wire protecting plate are respectively arranged in front of the wire passing guide hole grooves in an adaptive mode.

The wire driving and branching mechanism comprises a driving motor, a wire rolling shaft, a pneumatic wire cutting group and a wire converging and outlet nozzle, wherein the output end of the driving motor is in transmission connection with the output end of the wire rolling shaft, the wire rolling shaft is in adaptive rotation connection with the fixed frame body through an easily-detached fixing mechanism and is adaptively arranged between the upper wire protecting plate and the lower wire protecting plate, the wire rolling shaft is suitable for being arranged below the wire protecting plate and is movably arranged in front of the wire guide hole groove, the wire converging and outlet nozzle is adaptively arranged at the bottom of the fixed frame body and is adaptively arranged below the wire passing back plate and the lower wire protecting plate, the wire converging and outlet end is adaptively butted with the wire inlet end of the wire converging and outlet nozzle, the pneumatic wire cutting group is fixedly and horizontally arranged at the bottom of the fixed frame body and is arranged behind the wire passing back plate, and the output wire cutting end of the pneumatic wire cutting group is adaptively and movably arranged between the wire inlet end of the wire converging and the wire outlet end of the wire outlet nozzle.

Readily removable maintenance mechanism includes articulated locking arm and handle spare, the head end adaptation of articulated locking arm articulates on the lateral wall of the fixed frame body, it articulates to handle spare adaptation on the end of articulated locking arm, the middle section of articulated locking arm be provided with the first portion of rotating of rolling line axle looks adaptation, the lower part of the lateral wall of the fixed frame body be provided with the corresponding second of first portion of rotating rotates, the tip adaptation of rolling line axle rotates the setting and is in first portion of rotating with between the second portion of rotating.

The translation device includes the translation fixed plate, the adaptation is provided with the translation slide rail on the translation fixed plate, the activity of vertical fixed plate adaptation sets up on the translation slide rail, the fixed translation cylinder that is provided with in one side of translation fixed plate, the fixed translation limiting plate that is provided with on the opposite side of translation fixed plate, the output of translation cylinder with a side fixed connection of vertical fixed plate, the translation limiting plate with another side of vertical fixed plate is corresponding.

Elevating gear is including rotating the motor, it is in to rotate the motor and pass through the fixed setting of motor backup pad the top of mount, the downward vertical pass of output that rotates the motor backup pad, what rotate the motor has vertical lead screw through shaft coupling adapter connection, the adaptation is provided with lead screw lifting member on the vertical lead screw, be provided with lift response piece on the lead screw lifting member, be provided with on the mount with the inductor of lift response piece looks adaptation, lift response piece adaptation lift activity is arranged in the inductor, the adaptation is provided with the lift slide rail on the mount, translation fixed plate adaptation activity is arranged in on the lift slide rail and with lead screw lifting member fixed connection.

Has the advantages that: according to the invention, wires of different types outside enter the clutch pressing and releasing mechanism and the wire driving and releasing mechanism in sequence after being led in through the guide wire distributing mechanism of the wire distributing mechanism, the clutch pressing and releasing mechanism performs multi-wire clutch release on external multi-wire wires, and the wire driving and releasing mechanism performs guide same-hole wire outlet on the wires released through the dual-wire clutch, so that the multi-wire can be fed by the same equipment and a specified wire can be released within a specified wire winding time, and the equipment cost is effectively saved.

Drawings

FIG. 1 is an overall perspective view of the present invention;

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

fig. 3 is a schematic perspective view of a back side of the external winding machine.

Detailed Description

As shown in fig. 1, 2 and 3, the multi-wire clutch wire feeding device comprises a fixed frame 1, a lifting device, a translation device and a multi-wire clutch wire feeding device, wherein the lifting device is arranged on the fixed frame 1 in a matching mode, the translation device is movably arranged on the lifting device in a matching mode, the multi-wire clutch wire feeding device is arranged on the translation device in a matching mode, a wire dividing mechanism, a clutch wire pressing and releasing mechanism and a wire driving and wire dividing mechanism are arranged on the multi-wire clutch wire feeding device, external multi-wire wires sequentially enter the clutch wire pressing and releasing mechanism and the wire driving and wire dividing mechanism after being guided by the wire dividing mechanism and separated into wires, the clutch wire pressing and releasing mechanism carries out multi-wire clutch release on the external multi-wire wires, and the wire driving and wire dividing mechanism carries out guiding same-hole wire outlet on the wires released by the multi-wire clutch.

The multi-wire clutch wire feeding device further comprises a vertical fixing plate 20 movably arranged on the translation device in an adaptive mode, the wire distributing mechanism comprises a same-hole guide wire passing plate 21, a hole-distribution 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 hole-distribution guide wire passing plate 22 is arranged on the directional wire pressing plate frame 23 in an adaptive mode, the same-hole guide wire passing plate 21 is arranged above the hole-distribution guide wire passing plate 22 in an adaptive mode, the directional wire pressing plate 24 is arranged on the directional wire pressing plate frame 23 in an adaptive 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 arranged below the hole-distribution guide wire passing plate 22 in an adaptive mode, a first guide wire passing hole 27 is arranged on the same-distribution guide wire passing plate 21, second guide wire passing holes 28 are evenly arranged on the hole-distribution guide wire passing plate 22, and the second guide wire passing hole 28 is arranged below the first guide wire passing hole 27 in an adaptive mode and arranged above the directional wire passing position 26 in an adaptive mode.

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

The wire driving branching mechanism comprises a driving motor 41, a rolling shaft 42, a pneumatic line cutting group 43 and a line converging and discharging nozzle 44, wherein the output end of the driving motor 41 is in transmission connection with the output end of the rolling shaft 42 through a conveyor belt 411, the rolling shaft 42 is in adaptive rotary connection with the fixing frame body 35 through an easily detachable fixing mechanism and is adaptive to and arranged between the upper line protecting plate 362 and the lower line protecting plate 363, the rolling shaft 42 is adaptive to and arranged below the line protecting plate 361 and is movably arranged in front of the line guiding hole groove 361, the line converging and discharging nozzle 44 is adaptive to and arranged at the bottom of the fixing frame body 35 and is adaptive to and arranged below the line passing back plate 36 and the lower line protecting plate 363, the line converging and discharging end is in adaptive butt joint with the line inlet end of the line converging and is adaptive to and butt joint with the line inlet end of the line converging and discharging nozzle 44, the pneumatic line cutting group 43 is fixedly and horizontally arranged at the bottom of the fixing frame body 35 and is arranged behind the line passing back plate 36, and the output line converging and the output end of the pneumatic line cutting nozzle 43 is adaptive to and is arranged between the line inlet end of the line converging and discharging nozzle 44.

The easily detachable fixing mechanism comprises a hinged locking arm 51 and a handle part 52, the head end of the hinged locking arm 51 is hinged on the side wall of the fixed frame body 35 in a matching mode, the handle part 52 is hinged at the tail end of the hinged locking arm 51 in a matching mode, a first rotating part 511 matched with the rolling line shaft 42 is arranged in the middle of the hinged locking arm 51, a second rotating part corresponding to the first rotating part 511 is arranged at the lower portion of the side wall of the fixed frame body 35, and the end part of the rolling line shaft 42 is arranged between the first rotating part 511 and the second rotating part in a matching mode. The handle 52 can push and pull the hinge lock arm 51 to switch the hinge lock arm 51, thereby facilitating the assembly and disassembly of the spool 42.

The translation device includes translation fixed plate 61, the adaptation is provided with translation slide rail 62 on the translation fixed plate 61, the activity of vertical fixed plate 20 adaptation sets up on translation slide rail 62, the fixed translation cylinder 63 that is provided with in one side of translation fixed plate 61, the fixed translation limiting plate 64 that is provided with on the opposite side of translation fixed plate 61, the output of translation cylinder 63 and a side fixed connection of vertical fixed plate 20, translation limiting plate 64 is corresponding with another side of vertical fixed plate 20. The horizontal position of the line outlet nozzle 44 can be controlled by the translation means.

The lifting device comprises a rotating motor 71, the rotating motor 71 is fixedly arranged at the top of the fixed 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 lead screw 74 through a coupler 73 in an adaptive manner, a lead screw lifting piece 75 is arranged on the vertical lead screw 74 in an adaptive manner, a lifting induction piece 76 is arranged on the lead screw lifting piece 75, an induction body 77 matched with the lifting induction piece 76 is arranged on the fixed frame 1, the lifting induction piece 76 is matched, lifted and moved and placed in the induction body 77, a lifting slide rail 78 is arranged on the fixed frame 1 in an adaptive manner, and the translation fixing plate 61 is movably arranged on the lifting slide rail 78 in an adaptive manner and fixedly connected with the lead screw lifting piece 75. The outlet height of the line converging and outlet nozzle 44 can be adjusted and controlled through the lifting device.

Two types of wires are led out from an external wire coiling device, pass through the first guide wire passing hole 27 together and then respectively pass through the two second guide wire passing holes 28, then pass through the guide wire passing position 26 downwards and respectively pass through the corresponding third guide wire passing hole 332, the clutch wire passing space and the wire passing guide hole groove 361, and finally enter the wire converging and outlet nozzle 44 at the wire converging and outlet end.

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

When one of the wires needs to be led out, the line pressing clutch piece 33 corresponding to the outgoing wire is driven by the corresponding clutch cylinder 32 to move away from the driven wire passing roller 34, and the wire can be smoothly sent down in the corresponding clutch wire passing space; meanwhile, the wire pressing clutch 33 corresponding to another wire which is not required to be drawn out temporarily moves oppositely relative to the driven wire passing roller 34 under the driving of the corresponding clutch cylinder 32, so that another wire is compacted between the wire pressing clutch 33 and the driven wire passing roller 34 and cannot be fed downwards.

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

Claims (7)

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

2. A multi-wire feeding apparatus according to claim 1, characterized in that: the multi-line clutch wire feeding device also comprises a vertical fixing plate (20) which is movably matched and arranged on the translation device, the wire distributing mechanism comprises a same-hole guide wire passing plate (21), a branch-hole guide wire passing plate (22), a directional wire pressing plate frame (23) and a directional wire pressing plate (24), the same-hole guide line passing plate (21) and the directional line pressing plate frame (23) are respectively and fixedly arranged on the vertical fixing plate (20), the hole-dividing guide threading plate (22) is arranged on the directional threading plate frame (23) in a matching way, the same-hole guide wire passing plate (21) is correspondingly arranged above the branch-hole guide wire passing plate (22) in a matching way, the directional wire pressing plate (24) is arranged on the directional wire pressing plate frame (23) in a matching way 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 threading position (26) is adapted to be arranged below the hole-dividing guide threading plate (22), a first guide wire passing hole (27) is arranged on the same-hole guide wire passing plate (21), a plurality of second guide wire passing holes (28) are uniformly formed in the hole dividing guide wire passing plate (22), and the second guide wire passing holes (28) are arranged below the first guide wire passing hole (27) in an adaptive mode and are arranged above the directional wire passing position (26) in an adaptive mode.

3. A multi-wire feeding apparatus according to claim 2, characterized in that: the multi-line clutch wire feeding device further comprises a fixed frame body (35), the fixed frame body (35) is fixedly connected and arranged on the vertical fixed plate (20) and is arranged below the directional wire pressing plate frame (23), the clutch wire releasing mechanism comprises a cylinder fixed plate (31), a plurality of clutch cylinders (32), a plurality of wire pressing clutch members (33) and driven wire passing rollers (34), the cylinder fixed plate (31) is fixedly arranged at the top of the fixed frame body (35), the plurality of clutch cylinders (32) are uniformly and horizontally and fixedly arranged at the back of the cylinder fixed plate (31), clutch member releasing positions (351) are arranged on the top of the fixed frame body (35), output ends of the plurality of clutch cylinders (32) respectively penetrate through the cylinder fixed plate (31) in a movable mode and are arranged above the clutch member releasing positions (351) in an adaptive mode, the plurality of clutch members (33) are vertically and correspondingly arranged in the clutch member releasing positions (351), top ends of the plurality of the wire pressing clutch members (33) respectively correspond to top ends of one wire pressing cylinder (32) and are hinged to the clutch member releasing position (34), and bottom ends of the clutch members (33) are hinged to the clutch member releasing positions (34) and hinged to the clutch member releasing positions (34) at two ends of the clutch member releasing positions on two sides of the clutch member releasing positions (34), and the clutch member releasing positions (34) respectively 33 A clutch wire passing space is movably reserved between the driven wire passing roller (34) and the wire pressing and clutch member (33), a horizontal boss (331) is arranged at the top of the wire pressing and clutch member (33), a third guide wire passing hole (332) is arranged on the horizontal boss (331) in a matched manner, the third guide wire passing hole (332) is arranged below the directional wire passing position (26) in a matched manner and above the clutch wire passing space, a wire passing back plate (36) is further arranged on the fixing frame body (35), a plurality of wire passing guide hole grooves (361) are correspondingly arranged on the front surface of the wire passing back plate (36), the wire passing back plate (36) is arranged below the wire pressing and clutch member (33) in a matched manner, the wire inlet ends of the wire passing guide hole grooves (361) are correspondingly arranged below the third guide wire passing hole (332), the plurality of wire passing guide hole grooves (361) vertically downwards bend along the wire passing back plate (36) mutually, the wire passing ends of the wire passing guide hole grooves (361) are arranged on an upper wire protecting plate (363) and a wire protecting plate (363) which is arranged in front of the wire protecting plate, and a wire protecting plate (363) is arranged above the wire protecting plate (363) and a wire protecting plate (362) is arranged above the wire protecting plate.

4. A multi-wire feeding apparatus according to claim 3, characterized in that: the wire driving and branching mechanism comprises a driving motor (41), a rolling shaft (42), a pneumatic wire cutting group (43) and a wire converging and discharging nozzle (44), the output end of the driving motor (41) is in transmission connection with the output end of the rolling shaft (42), the rolling shaft (42) is in adaptive rotary connection with the fixed frame body (35) through an easily detachable fixing mechanism and is adaptively arranged between the upper wire protecting plate (362) and the lower wire protecting plate (363), the rolling shaft (42) is adaptively arranged below the wire protecting plate (361) and is movably arranged in front of the wire hole groove (361), the wire converging and discharging nozzle (44) is adaptively arranged at the bottom of the fixed frame body (35) and is adaptively arranged below the wire passing back plate (36) and the lower wire protecting plate (363), the wire converging and discharging nozzle (44) is adaptively butted with the wire inlet end of the wire converging and discharging nozzle (44) and is adaptively butted with the wire inlet end of the wire converging and discharging nozzle (44), the pneumatic wire cutting group (43) is horizontally arranged between the wire collecting and the wire outlet end of the wire collecting and the wire outlet nozzle (44) and is adaptively arranged behind the wire guiding end of the wire collecting and the wire outlet nozzle (36).

5. A multi-wire feeding apparatus according to claim 4, characterized in that: readily removable retention mechanism includes articulated locking arm (51) and holds component (52), the head end adaptation of articulated locking arm (51) articulates on the lateral wall of fixed frame body (35), it articulates to hold component (52) adaptation on the end of articulated locking arm (51), the middle section of articulated locking arm (51) be provided with first rotation portion (511) of spool (42) looks adaptation, the lower part of the lateral wall of fixed frame body (35) be provided with first rotation portion (511) corresponding second rotation portion, the tip adaptation of spool (42) rotates the setting and is in first rotation portion (511) with between the second rotation portion.

6. A multi-wire feeding apparatus according to claim 2, characterized in that: the translation device includes translation fixed plate (61), the adaptation is provided with translation slide rail (62) on translation fixed plate (61), vertical fixed plate (20) adaptation activity sets up on translation slide rail (62), one side of translation fixed plate (61) is fixed and is provided with translation cylinder (63), the fixed translation limiting plate (64) that is provided with on the opposite side of translation fixed plate (61), the output of translation cylinder (63) with a side fixed connection of vertical fixed plate (20), translation limiting plate (64) with another side of vertical fixed plate (20) is corresponding.

7. A multi-wire feeding apparatus according to claim 6, characterized in that: elevating gear is including rotating motor (71), it is in to rotate motor (71) through the fixed setting of motor backup pad (72) the top of mount (1), the output of rotating motor (71) is vertical downwards to be passed motor backup pad (72), it has vertical lead screw (74) to rotate motor (71) through shaft coupling (73) adaptation connection, the adaptation is provided with lead screw lift piece (75) on vertical lead screw (74), be provided with lift response piece (76) on lead screw lift piece (75), be provided with on mount (1) with inductor (77) of lift response piece (76) looks adaptation, lift response piece (76) adaptation lift activity is arranged in inductor (77), the adaptation is provided with lift slide rail (78) on mount (1), translation fixed plate (61) adaptation activity is arranged in on lift slide rail (78) and with lead screw lift piece (75) fixed connection.

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