CN216512137U - Multi-shaft horizontal swing rod type automatic wire feeding frame - Google Patents

Abstract

The utility model discloses a multi-axis horizontal swing rod type automatic wire feeding frame which comprises a pay-off shaft, a motor for driving the pay-off shaft to rotate for paying off, a swing assembly and a control unit, wherein the swing assembly comprises a swing base frame and a swing rod; the swing bed frame is provided with a hinge position and a first trigger part positioned on the front side of the hinge position; the rear end of the swinging rod is hinged to the hinge position, and the swinging rod penetrates through the upper part of the first triggering part and extends forwards; the hinge joint of the swing component is arranged in parallel with the pay-off shaft; the control unit correspondingly controls the motor to stop and start according to the approaching and the separating of the swinging rod and the first trigger part. The automatic wire feeding rack can effectively solve the problems that the existing wire feeding rack is high in cost, complex in installation, inconvenient in replacing a wire spool, small in bending angle during wire feeding, not smooth enough in wire direction, not suitable for automatic wire feeding of products with high requirements on wire quality and the like.

Description

Multi-shaft horizontal swing rod type automatic wire feeding frame

Technical Field

The utility model relates to the technical field of wire feeding frames, in particular to a multi-shaft horizontal swing rod type automatic wire feeding frame.

Background

In the conventional art, as shown in fig. 12 to 14, a representative wire feeding rack includes a spool 1 and a swing assembly 2, the swing assembly 2 is perpendicular to the spool 1, the swing assembly 2 is closer to the spool 1, it is not convenient to replace the spool 1, and the bending angle is smaller when feeding the wire, so that the wire (the dotted line is the wire feeding direction) is not smooth enough, and the wire feeding rack is not suitable for automatic wire feeding of products with high requirements on the quality of the wire. As shown in fig. 15 and 16, another representative wire feeding rack is shown, which uses the buffer component 3 to realize sliding type buffer wire feeding, and when the multi-axis wire feeding rack is used, the threading is complicated, the spool 1 is not convenient to replace, and also, the wire feeding (the dotted line is the wire feeding direction) has the problems of small bending angle and more bending times, which causes the wire to be not smooth enough, and is not suitable for the automatic wire feeding of the product with higher requirements for the wire quality, and the wire feeding rack has higher cost and more complicated installation.

In addition, because wire processing is usually intermittent, wire feeding action is also intermittent, at present, a bobbin motor on a wire feeding rack is set to control to start and stop at fixed time, the wire feeding rack is highly matched with a wire processing device according to the working progress of the wire feeding rack, and meanwhile, the requirement on electric control precision is high.

Therefore, a new technical solution is needed to solve the above problems.

SUMMERY OF THE UTILITY MODEL

In view of the above, the present invention provides a multi-axis horizontal swing link type automatic wire feeding rack, which can effectively solve the problems of the conventional wire feeding rack that the spool is inconvenient to replace, the bending angle is small during wire feeding, the wire direction is not smooth enough, and the wire feeding rack is not suitable for automatic wire feeding of products with high requirements on wire quality.

The other purpose is to provide a multi-shaft horizontal swing rod type automatic wire feeding frame which can effectively solve the problem of forced wire pulling in the prior art.

In order to achieve the purpose, the utility model adopts the following technical scheme:

the utility model provides an automatic pay-off frame of horizontal pendulum rod formula of multiaxis, includes paying out shaft, drive paying out shaft and rotate motor, swing subassembly and the control unit of unwrapping wire, wherein:

the swing assembly comprises a swing base frame and a swing rod; the swing base frame is provided with a hinge position and a first trigger part positioned on the front side of the hinge position; the rear end of the swinging rod is hinged to the hinge position, and the swinging rod penetrates through the upper part of the first triggering part and extends forwards; the hinge joint of the swing assembly is parallel to the pay-off shaft;

in a first state, the swinging rod stops on the first triggering part;

in a second state, the swinging rod swings upwards around the hinge joint, and the swinging rod is separated from the first triggering part upwards;

the control unit is connected with the motor; the control unit correspondingly controls the motor to stop and start according to the approaching and the separating of the swinging rod and the first trigger part.

Preferably, the first trigger part is a first metal conduction part; a second metal conduction part is arranged on the swinging rod corresponding to the first metal conduction part;

in a first state, the swinging rod stops at the first metal conduction part, and the second metal conduction part is in contact with the first metal conduction part to form conduction;

in a second state, the swinging rod swings upwards around the hinge joint, the second metal conduction part is separated from the first metal conduction part upwards along with the swinging rod, and the second metal conduction part and the first metal conduction part are disconnected;

the control unit is connected with the motor; the control unit correspondingly controls the motor to stop and start according to the connection and disconnection of the first metal conduction part and the second metal conduction part.

As a preferable scheme, the first triggering part is a first inductor; the swing rod is close to the first inductor downwards and far away from the first inductor upwards, so that the first inductor feeds back two different signals towards the control unit, and the control unit correspondingly controls the motor to stop and start according to the two different signals fed back by the first inductor.

Or a second sensor is arranged on the swinging rod corresponding to the first triggering part, the second sensor of the swinging rod is close to the first triggering part downwards and is far away from the first triggering part upwards, so that the second sensor feeds back two different signals towards the control unit, and the control unit correspondingly controls the motor to stop and start according to the two different signals fed back by the second sensor.

Preferably, the front end of the swinging rod is provided with a cycloid wheel, and at least the lower end of the cycloid wheel is provided with a wire passing groove for a wire rod to pass through from the lower end of the cycloid wheel and extend out from the front side of the cycloid wheel.

As a preferable scheme, a wire guiding wheel is arranged on the swinging base frame and is positioned at the rear side of the hinge position; the pay-off shaft extends horizontally from left to right, the swing rod is located on the front side of the pay-off shaft, and the wire guide wheel is higher than the swing rod.

As a preferred scheme, the swing bed frame is including left side board, right side board, first metal conduction portion sets up between the front end of left side board, right side board, be provided with the hinge hole of mutual disposition on left side board, the right side board, the rear end of swinging arms articulates in hinge hole department on left side board, the right side board.

As a preferred scheme, a wire guide wheel mounting rod is arranged on the swinging base frame, the lower section of the wire guide wheel mounting rod is hinged to the swinging base frame, the wire guide wheel is arranged on the upper section of the wire guide wheel mounting rod, and the wire guide wheel mounting rod can be arranged in a manner of swinging back and forth so as to adjust the position of the wire guide wheel.

As a preferred scheme, the multi-shaft horizontal swing rod type automatic wire feeding frame further comprises a wire feeding frame body, and the paying-off shaft, the motor and the swinging base frame are arranged on the wire feeding frame body; the pay-off shafts are respectively arranged outside the left side and the right side of the wire feeding frame body, and the motors are respectively arranged inside the left side and the right side of the wire feeding frame body; the swing assembly is arranged on the upper end or the front side of the wire feeding frame body side by side along the left-right direction.

Preferably, the swing lever is further provided with an elastic restoring member for providing an elastic restoring force for restoring the front end of the swing lever downward.

Compared with the prior art, the utility model has obvious advantages and beneficial effects, and specifically, the technical scheme includes that:

firstly, through the structural design of the swinging assembly and the line loosening state, the swinging rod stops at the first triggering part, and the control unit controls the motor to stop according to the conducting signal; in a wire pulling state, the swinging rod swings upwards around the hinge joint position, the swinging rod is separated from the first triggering part upwards, and the control unit controls the motor to start paying off according to the disconnection signal; the control unit correspondingly controls the motor to stop and start according to the approaching and the departing of the swinging rod and the first triggering part, and the problem of the existing forced wire pulling can be effectively solved.

Two, through the articulated position with swing assembly and paying out shaft parallel arrangement, during the multiaxis use, the threading is simpler, is convenient for change the spool, and bending angle is great during sending the line, and the number of times of bending is less, and is more level and smooth, is applicable to the product that requires higher to the wire rod quality, and in addition, the cost is lower, and the installation is simpler, and it can solve current sending the line frame effectively and change the spool inconvenient, and bending angle is less during sending the line, and the wire rod moves towards not level and smooth enough, is not suitable for the problem of the automatic line of sending of the product that requires higher to the wire rod quality.

To more clearly illustrate the structural features and effects of the present invention, the present invention will be described in detail below with reference to the accompanying drawings and specific embodiments.

Drawings

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

FIG. 2 is a right side view of an embodiment of the present invention;

FIG. 3 is a top view of an embodiment of the present invention (including a schematic of the wire orientation);

FIG. 4 is a front view of an embodiment of the present invention;

FIG. 5 is a right side view of the wire not being pulled to tension;

FIG. 6 is a structural view of the swing assembly when the wire is not pulled to tension;

FIG. 7 is an enlarged fragmentary view of FIG. 6;

FIG. 8 is a right side view of the wire under tension;

FIG. 9 is a structural view of the swing assembly with the wires tensioned and tensioned;

FIG. 10 is an enlarged fragmentary view of FIG. 9;

FIG. 11 is an electrical schematic of an embodiment of the present invention;

FIG. 12 is a side view of a representative prior art wire feeder;

FIG. 13 is a top view of a representative prior art wire feeder;

FIG. 14 is a front view of a representative prior art wire feeder;

FIG. 15 is a top view of another representative prior art wire feeder;

fig. 16 is a side view of another representative prior art wire feeder.

The attached drawings indicate the following:

the wire feeding device comprises a paying-off shaft 10, a motor 20, a swinging assembly 30, a swinging pedestal 31, a hinge position 311, a first metal conduction part 312, a second metal conduction part 313, a relay coil 314, a relay normally-closed switch 315, a swinging rod 32, a cycloid wheel 33, a wire passing groove 331, a wire guide wheel 34, a left side plate 301, a right side plate 302, a wire guide wheel mounting rod 303, a control unit 40, a wire feeding frame body 50, a wire stringing rod 60, a stringing part 61 and a wire rod 70.

Detailed Description

Referring to fig. 1 to 11, specific structures of the embodiments of the present invention are shown.

The utility model provides an automatic pay-off frame of multiaxis horizontal pendulum rod formula, includes paying out shaft 10, drive paying out shaft 10 and rotate motor 20, swing assembly 30 and the control unit 40 of unwrapping wire, wherein: the swing assembly 30 comprises a swing base frame 31 and a swing rod 32; the swing base frame 31 is provided with a hinge position 311 and a first trigger part positioned at the front side of the hinge position 311; the rear end of the swinging rod 32 is hinged at a hinge position 311, and the swinging rod 32 passes through the upper part of the first triggering part and extends forwards; in the first state, the swing lever 32 rests on the first trigger; in the second state, the swing lever 32 swings upward around the hinge joint 311, and the swing lever 32 is separated from the first trigger part upward; and, the control unit 40 is connected to the motor 20; the control unit 40 controls the motor 20 to stop or start according to the approach or the distance between the swing lever 32 and the first trigger.

If the first trigger part is a first metal conduction part 312, a second metal conduction part 313 is disposed on the swinging rod 32 corresponding to the first metal conduction part 312; in a first state (also referred to as a loose wire state), the swing lever 32 rests on the first metal conduction part 312, and the second metal conduction part 313 contacts with the first metal conduction part 312 to form conduction; in a second state (also referred to as a wire-pulling state), the swinging rod 32 swings upward around the hinge position 311, the second metal conduction part 313 is separated from the first metal conduction part 312 upward along with the swinging rod 32, and the two parts are disconnected;

and the control units 40 are respectively connected to the motors 20; the control unit 40 controls the motor 20 to stop or start according to the on/off of the first and second metal conduction parts 312 and 313. As shown in fig. 11, the second metal conduction part 313 is connected to the relay coil 314, the motor 20 is connected to the relay normally-closed switch 315, when the first metal conduction part 312 and the second metal conduction part 313 are conducted, the relay coil 314 is powered on, the relay normally-closed switch 315 is opened, and the motor 20 is powered off and stops rotating; on the contrary, when the first metal conduction part 312 and the second metal conduction part 313 are disconnected, the relay coil 314 is de-energized, the relay normally-closed switch 315 is closed, and the motor 20 is energized to start rotation.

Usually, the front end of the swinging rod 32 is provided with a cycloid wheel 33, at least the lower end of the cycloid wheel 33 is provided with a wire passing groove 331 for the wire to pass through the lower end of the cycloid wheel 33 and to extend out from the front side of the cycloid wheel 33, and in the actual design, as shown in fig. 6, the wire passing groove 331 is designed to be a whole circle around the circumference of the cycloid wheel 33, so that the production and the manufacture are convenient, and the wire 70 can be conveniently bent at different angles in the wire passing groove 331. The swing base frame 31 is provided with a wire guide wheel 34, and the wire guide wheel 34 is located at the rear side of the hinge position 311. The paying-off shaft 10 horizontally extends left and right, and the swing rod 32 is positioned on the front side of the paying-off shaft 10. The hinge position 311 of the swing assembly 30 is arranged parallel to the pay-off shaft 10. Referring to fig. 5 and 8, because the pay-off shaft 10 horizontally extends left and right, the swing lever 32 passes through the upper portion of the first metal conduction part 312 and extends forward, and the wire guide wheel is higher than the swing lever, on one hand, the distance between the swing lever 32 and the pay-off shaft 10 is large, so that the pay-off shaft 10 is convenient to replace, and on the other hand, the bending angle is large and smooth during wire feeding, so that the pay-off shaft can be suitable for products with high requirements on wire quality, and the problem that the traditional wire feeding rack is not suitable for products with high requirements on wire quality is solved. Preferably, a stringing rod 60 is arranged above the paying-off shaft 10, a stringing part 61 is arranged on the top of the stringing rod 60, and the stringing part 61 is higher than the guide wheel 34; the wire of the paying-off shaft 10 upwards extends forwards and obliquely downwards along the upper side of the wire stringing part 61, then extends forwards and obliquely downwards along the top of the wire guiding wheel 34, and then extends forwards and obliquely upwards along the lower side of the cycloid wheel 33, so that the wire feeding bending angle is large.

The swing base frame 31 includes a left side plate 301 and a right side plate 302, the first metal conduction part 312 is disposed between the front ends of the left side plate 301 and the right side plate 302, hinge holes disposed oppositely are disposed on the left side plate 301 and the right side plate 302, and the rear end of the swing rod 32 is hinged to the hinge holes on the left side plate 301 and the right side plate 302. The swinging pedestal 31 is provided with a wire guide wheel mounting rod 303, the lower section part of the wire guide wheel mounting rod 303 is hinged with the swinging pedestal 31, the wire guide wheel 34 is arranged at the upper section part of the wire guide wheel mounting rod 303, and the wire guide wheel mounting rod 303 can be arranged in a swinging mode back and forth to adjust the position of the wire guide wheel 34.

The multi-axis horizontal swing rod type automatic wire feeding frame further comprises a wire feeding frame body 50, and the paying-off shaft 10, the motor 20 and the swing base frame 31 are arranged on the wire feeding frame body 50. The pay-off shaft 10 is respectively arranged at the left and right outer parts of the wire feeding frame body 50, and the motor 20 is respectively arranged at the left and right inner parts of the wire feeding frame body 50; the swing assembly 30 is arranged at the upper end or the front side of the thread feeding frame body 50 in parallel along the left-right direction. The swing base frame 31 is installed at a position close to the front side at the upper end of the wire feeding frame body 50, and a plurality of swing base frames 31 are arranged side by side in the left-right direction. The control unit 40 is located at the front side of the thread feeding frame body 50 and below the swing assembly 30.

Next, a wire feeding start/stop control method of a multi-axis horizontal swing rod type automatic wire feeding frame is introduced, when a wire is pulled to be tensioned, the wire drives the swing rod 32 to swing upwards, so that the first metal conduction part 312 on the swing rod 32 is separated from the second metal conduction part 313, and the paying-off shaft 10 starts to rotate for paying off; when the wire is not pulled, the swinging rod 32 stops at the first metal conduction part 312 under the action of its own weight, so that the second metal conduction part 313 contacts with the first metal conduction part 312 to form conduction, and the paying-off shaft 10 stops rotating and paying off. Normally, the paying-off shaft 10 is driven by the motor 20 to rotate and pay off, the first metal conduction part 312 and the second metal conduction part 313 are respectively connected to the control unit 40, and the control unit 40 controls the motor 20 to stop and start according to the connection and disconnection of the first metal conduction part 312 and the second metal conduction part 313.

Next, the following operation procedure of the multi-axis horizontal swing link type automatic wire feeding rack of the present embodiment is generally described:

first, as shown in fig. 5, the wire 70 is in a relaxed state (also referred to as an untensioned state/untensioned state), the swinging rod 32 moves downward due to its own weight and rests on the first metal conduction part 312, so that the second metal conduction part 313 contacts with the first metal conduction part 312 to form conduction, the control unit 40 controls the motor 20 to stop according to the conduction signals of the first metal conduction part 312 and the second metal conduction part 313, and the paying-off shaft 10 is in a rotation-stopped paying-off state;

as shown in fig. 8, when the wire 70 is pulled and tensioned, the wire 70 drives the swinging rod 32 to swing upwards, so that the first metal conduction part 312 on the swinging rod 32 is separated from the second metal conduction part 313, and the paying-off shaft 10 starts to rotate and pay off; the control unit 40 controls the motor 20 to start according to the turn-off signals of the first metal conduction part 312 and the second metal conduction part 313, and continuously pay until the wire is in a relaxed state, the swinging rod 32 moves downwards due to self weight, stops on the first metal conduction part 312, and makes the second metal conduction part 313 contact with the first metal conduction part 312 to form conduction, the control unit 40 controls the motor 20 to stop according to the turn-on signals of the first metal conduction part 312 and the second metal conduction part 313, and the pay-off shaft 10 is in a rotation stop pay-off state.

Therefore, the real-time performance of the wire feeding start-stop control of the multi-shaft horizontal swing rod type automatic wire feeding frame is good, when the wire is pulled, the wire can be pulled and tensioned for a short time, and the motor 20 starts the wire feeding to ensure that the wire is continuously pulled and conveyed in a tensioned state; similarly, when the wire pulling is stopped at the wire pulling side (also referred to as the wire processing side), a short time is allowed to make the wire in a relaxed state, so that the swinging rod 32 moves down due to its own weight and stops on the first metal conduction part 312 to contact and form conduction, the motor 20 is correspondingly controlled to stop, and the paying-off shaft 10 is in a rotation-stopped paying-off state, thus reserving the wire pulling stock before the next wire is pulled and tensioned, and avoiding the phenomenon of forced wire pulling.

In another embodiment, an elastic restoring member for providing an elastic restoring force for restoring the front end of the swing lever 32 downward is further provided. Thus, when the wire 70 is pulled and tensioned, the wire 70 exerts an upward force on the cycloid wheel 33 (when the upward force is sufficient to overcome the elastic return force), and the swinging rod 32 is further driven to swing upward. When the wire 70 is in a relaxed state and there is no upward force of the wire 70 on the cycloid wheel 33, the front end of the oscillating lever 32 is swung downward to be reset under the elastic reset force of the elastic reset member. Usually, a torsion spring is installed at the position corresponding to the hinge position 311, and the torsion spring includes a spring body portion and two torsion arms connected to two ends of the spring body portion, one of the torsion arms acts on the swing base frame 31, and the other torsion arm acts on the front side portion of the swing rod 32 located at the hinge position 311.

The signal feedback of the approaching and separating state between the swing lever 32 and the first trigger is not limited to the design of the first and second metal vias 312 and 313; the first trigger part can also be designed as a first inductor; the swing lever 32 is close to the first sensor downwards and far away from the first sensor upwards, so that the first sensor feeds back two different signals to the control unit 40, and the control unit 40 correspondingly controls the motor 20 to stop and start according to the two different signals fed back by the first sensor.

Or, a second sensor may be disposed on the oscillating rod 32 corresponding to the first triggering portion, and the second sensor of the oscillating rod 32 is close to the first triggering portion downwards and far away from the first triggering portion upwards, so that the second sensor feeds back two different signals toward the control unit 40, and the control unit 40 correspondingly controls the motor 20 to stop and start according to the two different signals fed back by the second sensor.

The first sensor and the second sensor can adopt a proximity sensor, a touch sensor, a photoelectric sensor (preferably a shading type photoelectric sensor) and the like.

The utility model is characterized in that the swing rod stops at the first trigger part through the structural design of the swing component and the loose wire state, and the control unit controls the motor to stop according to the conducting signal; in a wire pulling state, the swinging rod swings upwards around the hinge joint position, the swinging rod is separated from the first triggering part upwards, and the control unit controls the motor to start paying off according to the disconnection signal; the control unit correspondingly controls the motor to stop and start according to the approaching and the departing of the swinging rod and the first trigger part, and the control unit can effectively solve the problem of the existing forced wire pulling.

And, through setting up swing assembly's articulated position and paying out shaft parallel, when the multiaxis was used, the threading was simpler, was convenient for change the spool, and the bending angle was great when sending the line, and the number of times of bending is less, and is more level and smooth, is applicable to the product that has a higher requirement for wire rod quality, and moreover, the cost is lower, and the installation is simpler, and it can solve current wire feeding frame effectively and change the spool inconveniently, and the bending angle is less when sending the line, and the wire rod trend is smooth inadequately, is not suitable for the problem of the automatic wire feeding of the product that has a higher requirement for wire rod quality.

In the description of the present invention, it should be noted that the terms "upper", "lower", "left", "right", and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience in describing the present invention and simplifying the description, but do not indicate or imply that the referred device or element must have a specific orientation, be constructed in a specific orientation, and be operated, and thus, should not be construed as limiting the present invention.

The above description is only a preferred embodiment of the present invention, and is not intended to limit the technical scope of the present invention, so that any minor modifications, equivalent changes and modifications made to the above embodiment according to the technical spirit of the present invention are within the technical scope of the present invention.

Claims (9)

1. The utility model provides an automatic line frame that send of multiaxis horizontal pendulum rod formula which characterized in that: including paying out shaft (10), drive paying out shaft (10) rotate motor (20), swing subassembly (30) and the control unit (40) of unwrapping wire, wherein:

the swing assembly (30) comprises a swing base frame (31) and a swing rod (32); the swing base frame (31) is provided with a hinge position (311) and a first trigger part positioned on the front side of the hinge position (311); the rear end of the swinging rod (32) is hinged to a hinge position (311), and the swinging rod (32) passes through the upper part of the first triggering part and extends forwards; the hinge joint (311) of the swing component (30) is arranged in parallel with the pay-off shaft (10);

in a first state, the swinging rod (32) is stopped on the first trigger part;

in a second state, the swinging rod (32) swings upwards around the hinge joint (311), and the swinging rod (32) is separated from the first triggering part upwards;

and the control unit (40) is connected to the motor (20); the control unit (40) controls the motor (20) to stop and start correspondingly according to the approaching and the departing of the swinging rod (32) and the first trigger part.

2. The multi-axis horizontal swing link type automatic wire feeding rack according to claim 1, wherein: the first trigger part is a first metal conduction part (312); a second metal conduction part (313) is arranged on the swinging rod (32) corresponding to the first metal conduction part (312);

in the first state, the swinging rod (32) is stopped on the first metal conduction part (312), and the second metal conduction part (313) is contacted with the first metal conduction part (312) to form conduction;

in a second state, the swinging rod (32) swings upwards around the hinge joint (311), the second metal conduction part (313) is separated from the first metal conduction part (312) upwards along with the swinging rod (32), and the two parts are disconnected;

and the control unit (40) is connected to the motor (20); the control unit (40) controls the motor (20) to stop and start according to the connection and disconnection of the first metal conduction part (312) and the second metal conduction part (313).

3. The multi-axis horizontal swing link type automatic wire feeding rack according to claim 1, wherein: the first trigger part is a first inductor; the swing rod (32) is close to the first inductor downwards and far away from the first inductor upwards, so that the first inductor feeds back two different signals towards the control unit (40), and the control unit (40) correspondingly controls the motor (20) to stop and start according to the two different signals fed back by the first inductor;

or a second sensor is arranged on the swinging rod (32) corresponding to the first triggering part, the second sensor of the swinging rod (32) is close to the first triggering part downwards and far away from the first triggering part upwards, so that the second sensor feeds back two different signals towards the control unit (40), and the control unit (40) correspondingly controls the motor (20) to stop and start according to the two different signals fed back by the second sensor.

4. The multi-axis horizontal swing link type automatic wire feeding rack according to claim 1, wherein: the front end of the swinging rod (32) is provided with a cycloidal wheel (33), and at least the lower end of the cycloidal wheel (33) is provided with a wire passing groove (331) for a wire rod to pass through from the lower end of the cycloidal wheel (33) and extend out from the front side of the cycloidal wheel (33).

5. The multi-axis horizontal swing link type automatic wire feeding rack according to claim 1, wherein: the wire guide wheel (34) is arranged on the swinging pedestal (31), and the wire guide wheel (34) is positioned on the rear side of the hinge position (311); pay off axle (10) are along controlling to horizontal extension setting, swinging arms (32) are located the front side of pay off axle (10), wire wheel (34) are higher than swinging arms (32).

6. The multi-axis horizontal swing link type automatic wire feeding rack according to claim 2, wherein: swing bed frame (31) is including left side board (301), right side board (302), first metal conduction portion (312) set up between the front end of left side board (301), right side board (302), be provided with the hinge hole of mutual disposition on left side board (301), right side board (302), the rear end of swinging arms (32) articulates in the hinge hole department on left side board (301), right side board (302).

7. The multi-axis horizontal swing link type automatic wire feeding rack according to claim 3, wherein: the wire guide wheel installation device is characterized in that a wire guide wheel installation rod (303) is arranged on the swing base frame (31), the lower section part of the wire guide wheel installation rod (303) is hinged to the swing base frame (31), a wire guide wheel (34) is arranged on the upper section part of the wire guide wheel installation rod (303), and the wire guide wheel installation rod (303) can swing back and forth to adjust the position of the wire guide wheel (34).

8. The multi-axis horizontal swing link type automatic wire feeding rack according to claim 1, wherein: the multi-axis horizontal swing rod type automatic wire feeding frame further comprises a wire feeding frame body (50), and the paying-off shaft (10), the motor (20) and the swing base frame (31) are arranged on the wire feeding frame body (50); the pay-off shafts (10) are respectively arranged outside the left side and the right side of the wire feeding rack body (50), and the motors (20) are respectively arranged inside the left side and the right side of the wire feeding rack body (50); the swing assembly (30) is arranged on the upper end or the front side of the wire feeding frame body (50) side by side along the left-right direction.

9. The multi-axis horizontal swing link type automatic wire feeding rack according to claim 1, wherein: an elastic restoring member for providing an elastic restoring force for restoring the front end of the swing lever (32) downward is also provided for the swing lever (32).

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