CN114147149A - Long wire cutting machine - Google Patents

Abstract

The application discloses long line wire cutting machine includes: a frame extending in a longitudinal direction; the wire inlet component is arranged on the rack and is suitable for longitudinally drawing a wire; the conveying component is arranged on the rack and is suitable for receiving the wire rods coming out of the wire inlet component, the traction speed of the wire inlet component is equal to the conveying speed of the conveying component, static friction force exists between the wire rods and the conveying component, and the length of the conveying component is not less than the maximum cutting length of the wire rods; and the cutting part is arranged between the wire inlet part and the conveying part and is suitable for cutting the wire rod. The cutting device has the advantages of simple structure, convenient control and low cost, and can effectively cut long wires and ensure that the cut wire rod sections are straight and orderly arranged.

Description

Long wire cutting machine

Technical Field

The application relates to a cable processing equipment field, concretely relates to wire cutting machine.

Background

The electric wire and cable is a wire product for transmitting electricity, magnetic energy, information and realizing electromagnetic energy conversion, and is generally classified into a plurality of types, and a data cable (including a network cable, a data cable, etc. which are commonly called) is one of them. In the data cable production and processing process, a wire cutting machine is often required to be used for cutting the data cable into specific lengths for use in subsequent procedures.

Existing wire cutting machines generally include a take-up spool, a wire guiding device, and a cutting device. The working process of the wire cutting machine is that a wire material wound on a winding drum is firstly unreeled by a wire leading device to a specified length, and then the wire material is cut by a cutting device, so that a wire material section meeting the length requirement is cut. The maximum length of the wire cut by the existing wire cutting machine is limited, and the wire cut by the existing wire cutting machine can only be cut by a plurality of meters. When the existing wire cutting machine is used for cutting long wires (more than 10 meters), the cut wire rod sections are usually bent and stacked on the material receiving platform in a messy manner, so that the use of subsequent processes is inconvenient. Of course, the wire cutting machine may be designed to be several tens of meters long, and a plurality of wire guiding devices may be disposed along the length direction to ensure that the cut wire rod segments may be arranged in a straight and orderly manner; however, the above structure will inevitably increase the manufacturing cost of the wire cutting machine, which is not easy to be paid.

Therefore, how to improve the existing wire cutting machine to overcome the above problems is a problem to be solved by those skilled in the art.

Disclosure of Invention

An aim at of this application provides a simple structure, and control is convenient, and is with low costs, and can effectively cut the long line, guarantees to cut the straight, long line cutting machine of orderly arrangement of wire rod section that gets off.

In order to achieve the above purposes, the technical scheme adopted by the application is as follows: a long wire cutting machine comprising:

a frame extending in a longitudinal direction;

the wire inlet component is arranged on the rack and is suitable for longitudinally drawing a wire;

the conveying component is arranged on the rack and is suitable for receiving the wire rods coming out of the wire inlet component, the traction speed of the wire inlet component is equal to the conveying speed of the conveying component, static friction force exists between the wire rods and the conveying component, and the length of the conveying component is not less than the maximum cutting length of the wire rods;

and the cutting part is arranged between the wire inlet part and the conveying part and is suitable for cutting the wire rod.

Specifically, the wire inlet component comprises a guide wheel component, a transition wheel component and a traction wheel component which are sequentially arranged along the longitudinal direction;

the guide wheel assembly comprises a support, a guide wheel and a limiting roller, the support is fixedly arranged on the rack, the guide wheel and the limiting roller are respectively and rotatably arranged on the support, and the wire rod is suitable for passing through the guide wheel and the limiting roller;

the transition wheel assembly comprises a plurality of transition wheels which are sequentially arranged along the longitudinal direction, the transition wheels are rotatably arranged on the rack, and the wire is suitable for passing through the transition wheels;

the traction wheel assembly comprises a traction power source, a traction wheel and a pressing roller, the traction wheel and the pressing roller are provided with a plurality of corresponding devices and are sequentially arranged along the longitudinal direction, the traction power source is suitable for driving the traction wheel to rotate, the pressing roller is rotatably arranged and tightly attached to the traction wheel, and the traction wheel is suitable for driving the wire to pass through the traction wheel and the pressing roller.

As an improvement, the support includes alignment jig and expansion bracket, the alignment jig be suitable for in vertical plane angle adjustable set up in the frame, the leading wheel with spacing roller rotate set up in on the expansion bracket, the expansion bracket slides along vertical plane and sets up on the alignment jig, just the alignment jig with be provided with reset spring between the expansion bracket and force both to keep away from, the alignment jig or be provided with contact switch on the expansion bracket, the wire rod passes through during the leading wheel subassembly, make the expansion bracket be close to the alignment jig and trigger contact switch. The angle-adjustable arrangement of the adjusting frame ensures that a proper incoming line angle is ensured; the arrangement of the telescopic frame and the contact switch can sense whether the wire is normally fed or not, and then the action of a follow-up part is controlled.

Preferably, the traction wheel assembly further comprises a turnover seat, a rotating shaft, a supporting seat and a tension spring, wherein the turnover seat is fixedly arranged on the rack, one end of the rotating shaft can be vertically turned over and arranged on the turnover seat, the compression roller is rotatably arranged on the rotating shaft, the supporting seat is fixedly arranged on the rack, the other end of the rotating shaft penetrates through the supporting seat, one end of the tension spring is fixedly connected with the rotating shaft, the other end of the tension spring is fixedly connected with the supporting seat, and the tension spring forces the compression roller to be close to the traction wheel. The structure can ensure that the compression roller can be always close to the traction wheel and contact the wire rod, so that sufficient static friction force is provided between the wire rod and the traction wheel to realize traction action.

Preferably, the conveying component comprises a conveying power source, a plurality of conveying rollers and a conveying belt, the plurality of conveying rollers are sequentially arranged along the longitudinal direction, the conveying power source is suitable for driving at least one conveying roller to rotate, the conveying belt is arranged on the conveying rollers in a surrounding mode, the conveying rollers drive the conveying belt to move circularly, and the wire rods are statically arranged on the conveying belt to be conveyed; the rotating angular speeds of the conveying roller and the traction wheel are the same.

Preferably, the cutting part comprises a door-shaped frame, a cutting power source and a cutting knife, the door-shaped frame is fixedly arranged on the rack, the wire rod is suitable for penetrating through the door-shaped frame, the cutting power source is fixedly arranged on the door-shaped frame and is suitable for driving the cutting knife to move along a vertical plane and be used for cutting off the wire rod.

As an improvement, the wire cutting machine further comprises a storage platform, the storage platform is longitudinally arranged on the rack and located on the side face of the conveying component, and the storage platform is suitable for receiving the wire transversely pushed from the conveying component. The storage platform is arranged to facilitate blanking from the side surface of the conveying part, and further a large amount of cut wires are stored for use in the next process; and the wire rods on the storage platform still keep a straight state, so that the wire arrangement is convenient.

As an improvement, the wire cutting machine further comprises a transverse pushing component, the transverse pushing component is arranged on the rack and is suitable for pushing the wire in the transverse direction, and the wire enters the storage platform from the conveying component. Automatic blanking of wires can be realized.

Specifically, the violently push away the part and have a plurality ofly and set up along longitudinal separation, violently push away the part and include horizontal slide rail, violently push away power supply, sliding block and push rod, horizontal slide rail along horizontal fixed set up in the frame, the sliding block along horizontal sliding set up in on the horizontal slide rail, violently push away the power supply and be suitable for the drive the sliding block slides, the push rod is fixed set up in on the sliding block, just push rod downwardly extending and being close to conveying element, the sliding block drive the push rod is along lateral motion, and then promotes the wire rod is along horizontal sliding, can make the wire rod is followed conveying element gets into deposit the platform. The structure is simple and reliable, and the control is convenient.

As an improvement, the wire cutting machine further comprises a pay-off drum, the pay-off drum is arranged at a high position, the wire is wound on the pay-off drum, and the wire is suitable for paying off from the high position and enters the wire inlet component from top to bottom in an inclined mode. The setting of a pay off section of thick bamboo is in the high position, is favorable to the wire rod to straighten naturally under the effect of gravity, has improved the straightness accuracy of back wire rod that cuts.

Compared with the prior art, the beneficial effect of this application lies in: the application of conveying part has three effects of drawing, carrying and accomodating, and specific theory:

(1) traction action: in the prior art, a wiring platform is generally arranged at the front end of a wire inlet part and used for receiving wires; however, when a long wire is cut, the wire pulled by the wire inlet component is also very long, and when the wire connecting platform receives more and more wires, the sliding friction force between the part of the wire and the wire connecting platform is gradually increased, which may cause the wire to bend and be disorderly arranged on one hand, and may also cause the wire inlet component to slip due to insufficient traction force (i.e. the traction force is smaller than the friction force) on the other hand, so that the accurate size cannot be cut. The conventional solutions to the above-mentioned problems are to reduce the friction of the splicing platform or to increase the traction of the incoming components. However, the above methods all greatly increase the manufacturing cost of the wire cutting machine, and the predetermined effect is not necessarily achieved. Therefore, the conveying component is arranged, the traction speed of the wire inlet component is equal to the conveying speed of the conveying component, the conveying component and the wire are kept static, traction is carried out by means of static friction force between the wire and the conveying component, on one hand, the traction force is improved, the wire inlet component is suitable for traction of a long wire, and on the other hand, the normal wire outlet of the wire due to the fact that sliding friction is generated between the wire and the conveying component to influence the wire is avoided.

(2) Conveying function: because the length of the conveying part is not less than the maximum cutting length of the wire rod, the cut wire rod can completely and straightly stand on the conveying part, and when the conveying part continues to act, the cut wire rod on the conveying part can be longitudinally conveyed for the next procedure.

(3) Storage function: and the length of the conveying part is not less than the maximum cutting length of the wire rod, so that when continuous cutting is not needed, the cut wire rod can be completely and straightly placed on the conveying part, the conveying part does not move at the moment, and the conveying part is used for temporarily placing the wire rod relative to the storage platform to play a role in storage.

Drawings

FIG. 1 is a schematic perspective view of a preferred embodiment of the present application (showing a payoff reel);

FIG. 2 is a side view of a preferred embodiment according to the present application;

figure 3 is a schematic perspective view of a wire inlet member according to a preferred embodiment of the present application;

FIG. 4 is a perspective view of a guide wheel assembly according to a preferred embodiment of the present application;

FIG. 5 is a perspective view of a traction wheel assembly according to a preferred embodiment of the present application;

FIG. 6 is a schematic perspective view of a cutting member according to a preferred embodiment of the present application;

FIG. 7 is a partial perspective view of the extension frame, transport member, storage platform, and lateral pushing member according to a preferred embodiment of the present application;

FIG. 8 is a front view of FIG. 7 in accordance with a preferred embodiment of the present application;

FIG. 9 is an enlarged view at A of FIG. 8 in accordance with a preferred embodiment of the present application;

figure 10 is a perspective view of a cross member according to a preferred embodiment of the present application.

In the figure: 1. a frame; 11. a control frame; 12. an extension frame; 2. a pay-off drum; 3. a wire inlet component; 31. a guide wheel assembly; 32. a transition wheel assembly; 33. a traction wheel assembly; 311. a support; 312. a guide wheel; 313. a limiting roller; 3111. an adjusting bracket; 3112. a telescopic frame; 3113. a return spring; 3114. a contact switch; 311a, arc grooves; 321. a transition wheel; 331. a source of tractive power; 332. a traction wheel; 333. a pressure roller; 334. a turning seat; 335. a rotating shaft; 336. a supporting seat; 337. tensioning the spring; 4. a conveying member; 41. conveying a power source; 42. a conveying roller; 43. a conveyor belt; 44. a tensioning device; 5. cutting the part; 51. a gate frame; 52. cutting a power source; 53. cutting knife; 6. a storage platform; 7. a transverse pushing component; 71. a transverse slide rail; 72. a transverse pushing power source; 73. a slider; 74. a push rod.

Detailed Description

The present application is further described below with reference to specific embodiments, and it should be noted that, without conflict, any combination between the embodiments or technical features described below may form a new embodiment.

In the description of the present application, it should be noted that, for the terms of orientation, such as "central", "lateral", "longitudinal", "length", "width", "thickness", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", "clockwise", "counterclockwise", etc., it indicates that the orientation and positional relationship shown in the drawings are based on the orientation or positional relationship shown in the drawings, and is only for the convenience of describing the present application and simplifying the description, but does not indicate or imply that the device or element referred to must have a specific orientation, be constructed in a specific orientation, and be construed as limiting the specific scope of protection of the present application.

The terms "comprises," "comprising," and "having," and any variations thereof, in the description and claims of this application, are intended to cover a non-exclusive inclusion, such that a process, method, system, article, or apparatus that comprises a list of steps or elements is not necessarily limited to those steps or elements expressly listed, but may include other steps or elements not expressly listed or inherent to such process, method, article, or apparatus.

As shown in fig. 1 to 10, a preferred embodiment of the present application mainly includes the following seven major parts:

a frame 1, the frame 1 extending in a longitudinal direction.

Pay off section of thick bamboo 2, pay off section of thick bamboo 2 sets up in the high-order, and the wire rod twines on pay off section of thick bamboo 2, and the wire rod is suitable for from the high-order downward slope unwrapping wire from the top. The pay-off drum 2 is arranged at a high position, so that the wire can be naturally straightened under the action of gravity, and the straightness of the cut wire is improved.

And the wire inlet component 3 is arranged on the rack 1, and the wire inlet component 3 is suitable for longitudinally drawing wires.

The conveying component 4 is arranged on the rack 1, the conveying component 4 is suitable for receiving the wire rods coming out of the wire inlet component 3, the traction speed of the wire inlet component 3 is equal to the conveying speed of the conveying component 4, static friction force exists between the wire rods and the conveying component 4, and the length of the conveying component 4 is not less than the maximum cutting length of the wire rods.

And the cutting part 5 is arranged between the wire inlet part 3 and the conveying part 4, and the cutting part 5 is suitable for cutting the wire.

And the storage platform 6 is longitudinally arranged on the rack 1 and is positioned on the side surface of the conveying part 4, and the storage platform 6 is suitable for receiving the wire transversely pushed from the conveying part 4. The storage platform 6 is arranged to facilitate the blanking from the side surface of the conveying part 4, and further store a large amount of cut wires for the use of the next process; and the wires on the storage platform 6 still keep a straight state, so that the wires are convenient to arrange.

And the transverse pushing component 7 is arranged on the rack 1, and the transverse pushing component 7 is suitable for pushing the wires in the transverse direction and enabling the wires to enter the storage platform 6 from the conveying component 4. Automatic blanking of wires can be realized.

As shown in fig. 3 to 5, the wire inlet part 3 includes a guide wheel assembly 31, a transition wheel assembly 32 and a traction wheel assembly 33 which are sequentially arranged in a longitudinal direction; the guide wheel assembly 31 comprises a bracket 311, a guide wheel 312 and a limiting roller 313, the bracket 311 is fixedly arranged on the frame 1, the guide wheel 312 and the limiting roller 313 are respectively and rotatably arranged on the bracket 311, and a wire is suitable for passing through between the guide wheel 312 and the limiting roller 313; the transition wheel assembly 32 comprises a plurality of transition wheels 321 which are sequentially arranged along the longitudinal direction, the transition wheels 321 are rotatably arranged on the frame 1, and the wire is suitable for passing through the transition wheels 321; the traction wheel assembly 33 comprises a traction power source 331, a traction wheel 332 and a pressing roller 333, the traction wheel 332 and the pressing roller 333 are correspondingly arranged in a plurality and are sequentially arranged along the longitudinal direction, the traction power source 331 is suitable for driving the traction wheel 332 to rotate, the pressing roller 333 is rotatably arranged and is tightly attached to the traction wheel 332, and the traction wheel 332 is suitable for driving a wire to pass through between the traction wheel 332 and the pressing roller 333.

As shown in fig. 4, the support 311 includes an adjusting frame 3111 and an expansion bracket 3112, the adjusting frame 3111 is suitable for being disposed on the rack 1 with an adjustable angle on a vertical plane, in this embodiment, a lower end bolt is adopted for fastening, the adjusting frame 3111 is provided with an arc groove 311a, and the adjusting frame 3111 is fixed at different positions of the arc groove 311a through bolts for angle adjustment; leading wheel 312 and spacing roller 313 rotate and set up on expansion bracket 3112, and expansion bracket 3112 slides along vertical plane and sets up on alignment jig 3111, and is provided with reset spring 3113 and forces both to keep away from between alignment jig 3111 and the expansion bracket 3112, is provided with contact switch 3114 on alignment jig 3111 or the expansion bracket 3112, and when the wire rod passed through leading wheel subassembly 31, make expansion bracket 3112 be close to alignment jig 3111 and trigger contact switch 3114. The angle-adjustable arrangement of the adjusting bracket 3111 ensures that a proper incoming line angle is provided; whether normal inlet wire can be responded to in the setting of expansion bracket 3112 and touch switch 3114, and then the action of control follow-up part.

As shown in fig. 5, the traction wheel assembly 33 further includes a turning seat 334, a rotating shaft 335, a supporting seat 336 and a tension spring 337, the turning seat 334 is fixedly disposed on the machine frame 1, one end of the rotating shaft 335 is disposed on the turning seat 334 in a vertically turnable manner, the compression roller 333 is rotatably disposed on the rotating shaft 335, the supporting seat 336 is fixedly disposed on the machine frame 1, the other end of the rotating shaft 335 penetrates through the supporting seat 336, one end of the tension spring 337 is fixedly connected to the rotating shaft 335, the other end of the tension spring 337 is fixedly connected to the supporting seat 336, and the tension spring 337 forces the compression roller 333 to approach the traction wheel 332. The above structure may include that the pressure roller 333 is always close to the traction wheel 332 and contacts the wire, so that there is enough static friction between the wire and the traction wheel 332 to realize the traction action.

As shown in fig. 7 to 9, the conveying component 4 includes a conveying power source 41, a plurality of conveying rollers 42 and a conveying belt 43, the plurality of conveying rollers 42 are arranged in sequence along a longitudinal direction, the conveying power source 41 is adapted to drive at least one conveying roller 42 to rotate, the conveying belt 43 is arranged on the conveying rollers 42 in a surrounding manner, the conveying rollers 42 drive the conveying belt 43 to move circularly, and the wire rod is statically arranged on the conveying belt 43 for conveying; the rotational angular speeds of the feed roller 42 and the traction wheel 332 are the same. The feed roller 42 is also provided with a tensioning device 44 as is conventional.

As shown in fig. 6, the cutting member 5 includes a gate frame 51, a cutting power source 52 and a cutting blade 53, the gate frame 51 is fixedly disposed on the frame 1, the wire is adapted to pass through the gate frame 51, and the cutting power source 52 is fixedly disposed on the gate frame 51 and adapted to drive the cutting blade 53 to move along a vertical plane for cutting the wire.

As shown in fig. 10, the transverse pushing component 7 has a plurality of transverse sliding rails 71, a transverse pushing power source 72, a sliding block 73 and a pushing rod 74, the transverse sliding rails 71 are fixedly disposed on the frame 1 in the transverse direction, the sliding block 73 is slidably disposed on the transverse sliding rails 71 in the transverse direction, the transverse pushing power source 72 is adapted to drive the sliding block 73 to slide, the pushing rod 74 is fixedly disposed on the sliding block 73, the pushing rod 74 extends downward and is close to the conveying component 4, the sliding block 73 drives the pushing rod 74 to move in the transverse direction, so as to push the wire to slide in the transverse direction, so that the wire can enter the storage platform 6 from the conveying component 4.

As can be seen from fig. 1, the housing 1 of the present embodiment is mainly divided into a control housing 11 and an extension housing 12, wherein the wire feeding part 3 and the cutting part 5 are provided on the control housing 11, and the conveying part 4, the storage platform 6 and the traverse part 7 are provided on the extension housing 12.

Preferably, the traction power source 331 and the conveyance power source 41 of the present embodiment are controlled by motors, and the cutting power source 52 and the lateral pushing power source 72 are controlled by cylinders.

The foregoing has described the general principles, essential features, and advantages of the application. It will be understood by those skilled in the art that the present application is not limited to the embodiments described above, which are merely illustrative of the principles of the application, but that various changes and modifications may be made without departing from the spirit and scope of the application, and these changes and modifications are intended to be within the scope of the application as claimed. The scope of protection claimed by this application is defined by the following claims and their equivalents.

Claims (10)

1. A long wire cutting machine, comprising:

a frame extending in a longitudinal direction;

the wire inlet component is arranged on the rack and is suitable for longitudinally drawing a wire;

the conveying component is arranged on the rack and is suitable for receiving the wire rods coming out of the wire inlet component, the traction speed of the wire inlet component is equal to the conveying speed of the conveying component, static friction force exists between the wire rods and the conveying component, and the length of the conveying component is not less than the maximum cutting length of the wire rods;

and the cutting part is arranged between the wire inlet part and the conveying part and is suitable for cutting the wire rod.

2. The machine according to claim 1, wherein the wire feeding member comprises a guide wheel assembly, a transition wheel assembly and a traction wheel assembly arranged in sequence along the longitudinal direction;

the guide wheel assembly comprises a support, a guide wheel and a limiting roller, the support is fixedly arranged on the rack, the guide wheel and the limiting roller are respectively and rotatably arranged on the support, and the wire rod is suitable for passing through the guide wheel and the limiting roller;

the transition wheel assembly comprises a plurality of transition wheels which are sequentially arranged along the longitudinal direction, the transition wheels are rotatably arranged on the rack, and the wire is suitable for passing through the transition wheels;

the traction wheel assembly comprises a traction power source, a traction wheel and a pressing roller, the traction wheel and the pressing roller are provided with a plurality of corresponding devices and are sequentially arranged along the longitudinal direction, the traction power source is suitable for driving the traction wheel to rotate, the pressing roller is rotatably arranged and tightly attached to the traction wheel, and the traction wheel is suitable for driving the wire to pass through the traction wheel and the pressing roller.

3. The long wire cutting machine according to claim 2, wherein the support comprises an adjusting frame and an expansion frame, the adjusting frame is arranged on the frame in an angle-adjustable manner in a vertical plane, the guide wheel and the limiting roller are rotatably arranged on the expansion frame, the expansion frame is slidably arranged on the adjusting frame along the vertical plane, a return spring is arranged between the adjusting frame and the expansion frame to force the adjusting frame and the expansion frame to be away from each other, a contact switch is arranged on the adjusting frame or the expansion frame, and when the wire passes through the guide wheel assembly, the expansion frame is enabled to be close to the adjusting frame and trigger the contact switch.

4. The machine according to claim 2, wherein the drawing wheel assembly further comprises a turning seat, a rotating shaft, a supporting seat and a tension spring, the turning seat is fixedly arranged on the machine frame, one end of the rotating shaft is arranged on the turning seat in a vertically turnable manner, the pressure roller is rotatably arranged on the rotating shaft, the supporting seat is fixedly arranged on the machine frame, the other end of the rotating shaft penetrates through the supporting seat, one end of the tension spring is fixedly connected with the rotating shaft, the other end of the tension spring is fixedly connected with the supporting seat, and the tension spring forces the pressure roller to be close to the drawing wheel.

5. The long wire cutting machine according to claim 1, wherein the conveying component comprises a plurality of conveying power sources, a plurality of conveying rollers and a plurality of conveying belts, the plurality of conveying rollers are sequentially arranged along a longitudinal direction, the conveying power sources are suitable for driving at least one conveying roller to rotate, the conveying belts are arranged on the conveying rollers in a surrounding mode, the conveying rollers drive the conveying belts to move circularly, and the wires are statically arranged on the conveying belts for conveying; the rotating angular speeds of the conveying roller and the traction wheel are the same.

6. The long wire cutting machine according to claim 1, wherein the cutting member comprises a gate frame, a cutting power source and a cutting blade, the gate frame is fixedly disposed on the frame, the wire is adapted to pass through the gate frame, the cutting power source is fixedly disposed on the gate frame and adapted to drive the cutting blade to move along a vertical plane for cutting the wire.

7. A machine according to any one of claims 1 to 6, further comprising a storage platform disposed longitudinally on said frame and laterally of said transport member, said storage platform being adapted to receive said wire advanced transversely from said transport member.

8. The machine according to claim 7, further comprising a traverse member disposed on said frame, said traverse member being adapted to laterally advance said wire from said transport member into said storage platform.

9. The machine according to claim 8, wherein the traverse members are provided in plural and spaced longitudinally, and each traverse member includes a transverse slide rail, a traverse power source, a slide block and a push rod, the transverse slide rail is fixed and arranged on the frame transversely, the slide block is arranged on the transverse slide rail transversely, the traverse power source is adapted to drive the slide block to slide, the push rod is fixed and arranged on the slide block, the push rod extends downwards and is close to the conveying member, the slide block drives the push rod to move transversely, so as to push the wire to slide transversely, and the wire can enter the storage platform from the conveying member.

10. The long wire cutting machine according to claim 1, further comprising a pay-off drum disposed at a high position, wherein the wire is wound on the pay-off drum, and the wire is adapted to be paid off from the high position and enter the wire inlet component from top to bottom in an inclined manner.

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