CN213033833U - Wiring device of linear cutting machine - Google Patents

Abstract

The utility model discloses a wiring device of a linear cutting machine, which comprises a base, wherein a stand column is arranged on the base, a three-way motion component is arranged on the stand column, the three-way motion component is connected with a first wiring rod component through a first connecting plate, a second wiring rod component is arranged below the first wiring rod component, and the second wiring rod component is connected with the stand column through a second connecting plate; the side faces, far away from the upright post, of the first routing rod assembly and the second routing rod assembly are connected with connecting rod assemblies, and the end parts of the first routing rod assembly and the second routing rod assembly are provided with routing wheel assemblies; a wire feeding mechanism is further arranged on one side, close to the stand column, of the base, a cutting wire is arranged on the wire feeding mechanism, and the cutting wire sequentially passes through the wire routing wheel assembly and is in circulating connection with the wire feeding mechanism; the wire arrangement device is good in movement flexibility, capable of achieving multidirectional large-angle movement, stable and reliable in wire arrangement and high in wire cutting precision.

Description

Wiring device of linear cutting machine

Technical Field

The utility model relates to wire cut electrical discharge machining bed technical field, concretely relates to wire arrangement of walking of wire cut electrical discharge machining bed.

Background

Wire electric discharge machining is called wire cutting for short. Under the action of pulse power supply, spark discharge is formed between the tool electrode and the workpiece to be machined, and the spark channel instantaneously generates great amount of heat to melt or even vaporize the surface of the workpiece. The wire electrode moves along a preset track by the linear cutting machine through the movement of the XY supporting plate and the UV supporting plate, so that the purpose of processing workpieces is achieved.

In the working process of a linear cutting machine, the cutting wire generally needs to be controlled by the cooperation of a wire feeding mechanism and a wire feeding device, and the accuracy and precision of linear cutting can be directly influenced by the quality of the motion control of the cutting wire. For example, Chinese utility model patent (publication No. CN210524054U) discloses a slow-moving wire cutting machine with tensioning function in 2020, including the base, be equipped with pneumatic cylinder A, connecting plate, mobile station, work piece clamping device, pneumatic cylinder B and cutter case on the base, be equipped with leading wheel A on the cutter case, backup pad A, connecting rod, take-up pulley A, weight, power supply unit, hydraulic tensioning device, receipts silk spool, fortune silk section of thick bamboo, cutting arm A and cutting arm B etc. this utility model can make the silk thread keep the tensile force in the cutting process, improves the stationarity of cutting, but this wire cutting machine's silk thread speed of walking is not well controlled, does not possess the function of wide angle cutting.

Disclosure of Invention

The utility model aims at providing a wire arrangement is walked to wire cut electrical discharge machining bed to the problem that prior art exists.

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

a wiring device of a linear cutting machine comprises a base, wherein an upright post is arranged on the base, a three-way movement assembly is arranged on the upright post, the three-way movement assembly is connected with a first wiring rod assembly through a first connecting plate, a second wiring rod assembly is arranged below the first wiring rod assembly, and the second wiring rod assembly is connected with the upright post through a second connecting plate; the side faces, far away from the upright post, of the first routing rod assembly and the second routing rod assembly are connected with connecting rod assemblies, and the end parts of the first routing rod assembly and the second routing rod assembly are provided with routing wheel assemblies; one side of the base, which is close to the upright post, is also provided with a wire feeding mechanism, the wire feeding mechanism is provided with a cutting wire, and the cutting wire sequentially passes through the wire routing wheel assembly and is circularly connected with the wire feeding mechanism.

The routing device of the linear cutting machine can realize large-angle swinging action through the arrangement of the three-way movement assembly and the floating first routing rod assembly and second routing rod assembly, thereby realizing large-angle taper adjustment of a cutting wire and carrying out cutting work at various angles; the routing wheel assembly can synchronously move or swing along with the first routing rod assembly and the second routing rod assembly, so that on one hand, the cutting wire can be ensured to change angles along with movement, and on the other hand, the cutting wire is ensured to be always in the same straight line with the corresponding routing wheel (the first routing rod assembly and the second routing rod assembly) and the main rod body during movement and cannot be separated from the routing wheel; the arrangement of the connecting rod assembly has the effects of stabilizing and assisting the change of the angle, is favorable for keeping the relative stability of the first routing rod assembly and the second routing rod assembly during moving or swinging, and ensures the accuracy of wire traveling; the wire feeding mechanism can circularly feed wires back and forth, and controls the tension and the running speed of the cutting wires.

When the device works, in an initial state, the second routing rod assembly is arranged right below the first routing rod assembly; the three-way movement assembly can move up and down, back and forth and left and right so as to drive the first wiring rod assembly to move up and down, back and forth and left and right, and because the second wiring rod assembly is fixed on the upright post and is still, the first wiring rod assembly and the second wiring rod assembly can be staggered in left and right and front and back directions when moving; the plane in which the cutting wire is located will form an angular offset, thereby achieving an angular change of the cutting wire.

Further, the first routing rod assembly and the second routing rod assembly have the same structure and both comprise a main rod body; a round rod penetrates through the main rod body in the length direction, and a first hinge seat and the routing wheel assembly are respectively sleeved at two ends of the round rod; the first hinged seat is movably connected with the connecting rod assembly through a connecting shaft, and the connecting shaft is perpendicular to the round rod.

The first hinge seat and the round rod are arranged, so that the first hinge seat can rotate relative to the round rod, and particularly, the lower first hinge seat can rotate relative to a fixedly arranged main body rod (on the lower second wiring rod component); and the first hinge seat can also rotate relative to the connecting rod assembly.

Furthermore, the main rod body on the first wiring rod assembly is in threaded connection with the first connecting plate through a transition plate, the transition plate is in threaded connection with the main rod body in a multi-point mode in the length direction, and the main rod body on the second wiring rod assembly is in threaded connection with the second connecting plate in a multi-point mode in the length direction. Such setting can improve the stability that the main rod body is connected in length direction.

Furthermore, the first hinged seat is vertically connected with the end face of the connecting shaft through a limiting plate in a threaded manner. The limiting plate is arranged to avoid axial looseness or falling off of the hinged connecting shaft.

Furthermore, the wire traveling wheel assembly comprises a wheel carrier, one end of the wheel carrier is connected with the first wire traveling rod assembly or the second wire traveling rod assembly, the other end of the wheel carrier is provided with a U-shaped opening, a wire traveling wheel is sleeved in the U-shaped opening, and side limiting plates are sleeved at two ends of the wire traveling wheel; a guide plate is arranged below the wire travelling wheel, a wire travelling hole is formed in the guide plate, and the guide plate is in threaded connection with the side limiting plate or the lower part of the wheel carrier; one of the side limiting plates is movably connected with the connecting rod assembly.

The wire-moving wheel can be stably installed through the arrangement of the structure, the cutting wire can well attach to the wire-moving wheel to move, and the wire falling is reduced; the guide plate and the wire feeding hole are arranged, so that the accuracy and precision of the movement of the cutting wire can be further improved; the guide plates on the first routing rod assembly and the second routing rod assembly are oppositely arranged, and the wire passing holes are tapered holes.

Furthermore, the connecting rod assembly comprises a vertical first connecting rod and a pair of transverse second connecting rods, wherein two ends of the first connecting rod are respectively sleeved with a second hinge seat, and the second hinge seats are respectively and movably connected with the first wiring rod assembly or one end of the second wiring rod assembly close to the upright column (namely, the second hinge seats are movably connected with the first hinge seats through the connecting shafts); the pair of second connecting rods are respectively parallel and arranged along the length direction of the first routing rod assembly and the second routing rod assembly, and both ends of each second connecting rod are respectively sleeved with a third hinge seat; the third hinge seat at one end is movably connected with the second hinge seat through a rotating shaft, and the third hinge seat at the other end is movably connected with the side limiting plate on the wire walking wheel assembly through a rotating shaft.

Furthermore, the second hinge seat and the third hinge seat are both of a cubic structure, a plurality of hinge holes are respectively formed in the cubic structure, and at least one surface of the cubic structure is provided with a connecting sheet.

Furthermore, the three-way movement assembly comprises a Z-direction slide rail and a Z-direction driving motor which are arranged on the side surface of the upright post, and a Z-direction slide plate is arranged on the Z-direction slide rail and is driven by the Z-direction driving motor; an L-shaped plate is screwed on the side surface of the Z-direction sliding plate, a plurality of X-direction sliding blocks are screwed below the L-shaped plate, X-direction sliding rails are connected below the X-direction sliding blocks, an X-direction connecting plate is screwed below the X-direction sliding rails, and an X-direction driving motor is mounted on the X-direction connecting plate; x has a plurality of Y to the slider to the below spiro union of connecting plate, Y is connected with Y to the slide rail to the below of slider, Y has Y to the connecting plate to the below spiro union of slide rail, Y is to installing Y on the connecting plate to driving motor, Y connects to the below spiro union of connecting plate first connecting plate.

That is to say, the Z-direction driving motor controls the whole body to move up and down, the X-direction driving motor drives the X-direction connecting plate to move horizontally in the X direction, and the Y-direction driving motor drives the Y-direction connecting plate to move horizontally in the Y direction, so as to drive the first connecting plate to move up and down, the X-direction horizontal movement and the Y-direction horizontal movement, thereby realizing the up-down, left-right and front-back movement of the first routing rod assembly. The transmission in three directions is screw rod transmission.

Furthermore, the wire feeding mechanism comprises a supporting seat screwed on the base, a wire feeding slide rail is arranged on the supporting seat, a wire feeding slide plate is arranged on the wire feeding slide rail, a wire feeding roller is connected to the wire feeding slide plate through a pair of supports, and the cutting wire is wound on the wire feeding roller; and a rotating motor for driving the wire feeding roller is further installed on one side of the support.

Through the setting of sending a slide and sending a slide rail, can the horizontally adjustment send the position (X to removing) of a cylinder to adapt to the cutting wire along with the removal of first walking beam subassembly.

Furthermore, the cross-sectional dimension of the upright post at the position where the second routing rod assembly is connected is larger than the upper cross-sectional dimension of the upright post, and a distance is kept between the first routing rod assembly and the upright post.

Compared with the prior art, the beneficial effects of the utility model are that: 1. the wire routing device of the linear cutting machine tool has good movement flexibility, can realize multidirectional large-angle movement, and has stable and reliable wire routing and higher linear cutting precision; 2. the routing device of the linear cutting machine can realize large-angle swinging action through the arrangement of the three-way movement assembly and the floating first routing rod assembly and second routing rod assembly, thereby realizing large-angle taper adjustment of a cutting wire and carrying out cutting work at various angles; 3. the routing wheel assembly can synchronously move or swing along with the first routing rod assembly and the second routing rod assembly, so that on one hand, the cutting wire can be ensured to change angles along with movement, and on the other hand, the cutting wire is ensured to be always in the same straight line with the corresponding routing wheel and the main rod body when moving and cannot be separated from the routing wheel; 4. the arrangement of the connecting rod assembly has the effects of stabilizing and assisting the change of the angle, is favorable for keeping the relative stability of the first routing rod assembly and the second routing rod assembly during moving or swinging, and ensures the accuracy of wire traveling; the wire feeding mechanism can circularly feed wires back and forth, and controls the tension and the running speed of the cutting wires.

Drawings

Fig. 1 is a schematic perspective view of a routing device of a linear cutting machine according to the present invention;

fig. 2 is a schematic side view of the routing device of the linear cutting machine of the present invention;

fig. 3 is a schematic cross-sectional structural view of the main rod body of the routing device of the linear cutting machine of the present invention;

fig. 4 is a schematic structural view of a routing wheel assembly of a routing device of a linear cutting machine according to the present invention;

fig. 5 is a schematic structural diagram of a connecting rod assembly of a routing device of a linear cutting machine according to the present invention;

fig. 6 is a schematic view of a connection structure of three hinge seats of a routing device of a linear cutting machine according to the present invention;

fig. 7 is a schematic structural view of a three-way movement assembly of a routing device of a linear cutting machine according to the present invention;

fig. 8 is a schematic structural view of a wire feeding mechanism of a wire feeding device of a wire cutting machine according to the present invention;

in the figure: 1. a base; 2. a column; 3. a three-way motion assembly; 4. a first connecting plate; 5. a first trace bar assembly; 501. a transition plate; 6. a second trace bar assembly; 601. a second connecting plate; 7. a routing wheel assembly; 701. a wheel carrier; 702. a wire-passing wheel; 703. a side limiting plate; 704. a lug; 705. a guide plate; 706. a wire feeding hole; 8. a connecting rod assembly; 801. a first link; 802. a second link; 803. a second hinge mount; 804. a third hinge mount; 9. a wire feeder; 901. a supporting seat; 902. a wire feeding slide rail; 903. a wire feeding sliding plate; 904. a support; 905. a wire feed roller; 906. a rotating electric machine; 10. cutting the wire; 11. a main rod body; 12. a round bar; 13. a first hinge mount; 14. a limiting plate; 15. a connecting shaft; 16. connecting sheets; 17. a Z-direction slide rail; 18. a Z-direction driving motor; 19. a Z-direction sliding plate; 20. an "L" shaped plate; 21. an X-direction sliding block; 22. an X-direction slide rail; 23. an X-direction connecting plate; 24. an X-direction driving motor; 25. a Y-direction sliding block; 26. a Y-direction slide rail; 27. a Y-direction connecting plate; 28. and driving the motor in the Y direction.

Detailed Description

The technical solution of the present invention will be described clearly and completely with reference to the accompanying drawings, and obviously, the described embodiments are only some embodiments, not all embodiments of the present invention. Based on the embodiments of the present invention, all other embodiments obtained by a person skilled in the art without creative efforts belong to the protection scope of the present invention.

In the description of the present invention, it should be noted that the terms "middle", "upper", "lower", "left", "right", "inner", "outer", and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and simplification of description, but do not indicate or imply that the device or element referred to must have a specific orientation, be constructed and operated in a specific orientation, and thus, should not be construed as limiting the present invention. Furthermore, the terms "first," "second," and the like are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

As shown in fig. 1 and 2, a routing device of a linear cutting machine comprises a base 1, wherein an upright post 2 is arranged on the base 1, a three-way movement assembly 3 is arranged in front of and above the upright post 2, the three-way movement assembly 3 is connected with a first routing rod assembly 5 through a first connecting plate 4, a second routing rod assembly 6 is arranged below the first routing rod assembly 5, and the second routing rod assembly 6 is connected with the upright post 2 through a second connecting plate 601; the side surfaces, far away from the upright post 2, of the first routing rod assembly 5 and the second routing rod assembly 6 are connected with a connecting rod assembly 8, and the front end parts of the first routing rod assembly 5 and the second routing rod assembly 6 are provided with routing wheel assemblies 7; the base 1 is close to the rear of the upright post and is also provided with a wire feeding mechanism 9, the wire feeding mechanism 9 is provided with a cutting wire 10, and the cutting wire 10 sequentially passes through the wire routing wheel assembly 7 and is circularly connected with the wire feeding mechanism 9. The cutting wire 10 is a molybdenum wire.

The routing device of the linear cutting machine can realize large-angle swinging action through the arrangement of the three-way movement assembly 3 and the floating first routing rod assembly 5 and second routing rod assembly 6, thereby realizing large-angle taper adjustment of the cutting wire 10 and carrying out cutting work of various angles; the routing wheel assembly 7 can synchronously move or swing along with the first routing rod assembly 5 and the second routing rod assembly 6, so that on one hand, the cutting wire 10 can move along with the movement to generate angle change, and on the other hand, the cutting wire 10 is always in the same straight line with the corresponding routing wheel (the first routing rod assembly and the second routing rod assembly) and the main rod body when moving, and cannot be separated from the routing wheel; the arrangement of the connecting rod assembly 8 plays a role in stabilizing and assisting angle change, so that the relative stability of the first routing rod assembly 5 and the second routing rod assembly 6 during moving or swinging is favorably maintained, and the accuracy of wire running is ensured; the wire feeder 9 can feed wires circularly back and forth, and controls the tension and the running speed of the cutting wire 10.

During operation, in an initial state, the second trace rod assembly 6 is right below the first trace rod assembly 5; the three-way movement assembly 3 can move up and down, back and forth, and left and right, so as to drive the first wiring rod assembly 5 to move up and down, back and forth, and left and right, and because the second wiring rod assembly 6 is fixed on the upright post 2 and is kept immovable, when the first wiring rod assembly 5 moves, the first wiring rod assembly and the second wiring rod assembly 6 are staggered in the left and right and front and back directions; the plane in which the cutting wire 10 lies is angularly offset, thereby effecting a change in the angle of the cutting wire 10.

Further, the first track bar assembly 5 and the second track bar assembly 6 have the same structure, and as shown in fig. 3, both include a main bar body 11; a round rod 12 penetrates through the main rod body 11 in the length direction, and a first hinge base 13 and the wire travelling wheel assembly 7 are respectively sleeved at two ends of the round rod 12; the first hinge base 13 is movably connected with the second hinge base 803 on the connecting rod assembly 8 through a connecting shaft 15, and the connecting shaft 15 is vertically arranged with the round rod 12.

The first hinge seat 13 and the round bar 12 are arranged such that the first hinge seat 13 can rotate relative to the round bar 12, and particularly, the lower first hinge seat can rotate relative to the fixedly arranged main bar (on the lower second routing bar assembly); and the first hinge seat 13 is also able to rotate with respect to the connecting-rod assembly 8.

Further, the main rod body on the first wire rod assembly 5 is in bolt connection with the first connecting plate 4 through a transition plate 501, the transition plate 501 is in bolt connection with the main rod body in multiple points in the length direction, and the main rod body on the second wire rod assembly 6 is in bolt connection with the second connecting plate 601 in multiple points in the length direction. Such setting can improve the stability that the main rod body is connected in length direction.

Furthermore, a limiting plate 14 is screwed on the end surface of the first hinge seat 13 perpendicular to the connecting shaft 15. The limiting plate 14 is arranged to prevent the connecting shaft 15 for hinging from axially loosening or falling off.

Further, as shown in fig. 4, the routing wheel assembly 7 includes a wheel carrier 701, one end of the wheel carrier 701 is connected to the first routing rod assembly 5 or the second routing rod assembly 6 (sleeved with the round bar 12), and the other end has a "U" -shaped opening, the routing wheel 702 is sleeved in the "U" -shaped opening, and side limiting plates 703 are sleeved at two ends of the routing wheel 702; a guide plate 705 is arranged below the wire travelling wheel 702, a wire travelling hole 706 is formed in the guide plate 705, and the guide plate 705 is in threaded connection with the lower part of the side limiting plate 703; a lug 704 is arranged above the side limiting plate 703 at the outer side, and the lug 704 is movably connected with the third hinge seat of the connecting rod assembly 8.

By the arrangement of the structure, the wire travelling wheel 702 can be stably installed, the cutting wire 10 can well adhere to the wire travelling wheel 702 to move, and wire falling is reduced; the guide plate 705 and the wire feeding hole 706 are arranged to further improve the accuracy and precision of the movement of the cutting wire 10; the guide plates 705 on the first and second track bar assemblies 5 and 6 are disposed opposite to each other, and the wire feeding holes 706 are tapered holes.

Further, as shown in fig. 5, the connecting rod assembly 8 includes a vertical first connecting rod 801 and a pair of horizontal second connecting rods 802, two ends of the first connecting rod 801 are respectively sleeved with a second hinge seat 803, and the second hinge seats 803 are respectively movably connected to the first hinge seats 13; the pair of second connecting rods 802 are respectively parallel and arranged along the length direction of the first trace rod assembly 5 and the second trace rod assembly 6, and both ends of the second connecting rods 802 are respectively sleeved with third hinge seats 804; the third hinge seat 804 at one end is movably connected with the second hinge seat 803 through a rotating shaft, and the third hinge seat 804 at the other end is movably connected with the side limiting plate 703 on the wire moving wheel assembly 7 through a rotating shaft.

Further, as shown in fig. 6, the second hinge seat 803 and the third hinge seat 804 are both of a cubic structure, the cubic structure is provided with a plurality of hinge holes, at least one side of the cubic structure is provided with a connecting piece 16, and a rotating shaft is arranged in the connecting piece 16.

Further, as shown in fig. 7, the three-way movement assembly 3 includes a Z-directional slide rail 17 and a Z-directional driving motor 18, which are disposed on a side wall of the upright 2, wherein a Z-directional sliding plate 19 is disposed on the Z-directional slide rail 17, and the Z-directional sliding plate 19 is driven to move up and down by the Z-directional driving motor 18; an L-shaped plate 20 is screwed on the front side surface of the Z-direction sliding plate 19, a plurality of X-direction sliding blocks 21 are screwed below the L-shaped plate 20, X-direction sliding rails 22 are connected below the X-direction sliding blocks 21, an X-direction connecting plate 23 is screwed below the X-direction sliding rails 22, and an X-direction driving motor 24 is mounted on the X-direction connecting plate 23; the X is to the below spiro union of connecting plate 23 have a plurality of Y to the slider 25, Y is to the below of slider 25 to be connected with Y to slide rail 26, Y is to the below spiro union of slide rail 26 to Y to connecting plate 27, Y is to installing Y on the connecting plate 27 to drive motor 28, Y is to the below spiro union of connecting plate 27 first connecting plate 4.

That is, the Z-direction driving motor 18 controls the whole body to move up and down, the X-direction driving motor 24 drives the X-direction connecting plate 23 to move horizontally in the X direction, and the Y-direction driving motor 28 drives the Y-direction connecting plate 27 to move horizontally in the Y direction, so as to drive the first connecting plate 4 to move up and down, the X-direction horizontal movement and the Y-direction horizontal movement, thereby realizing the up-down, left-right and front-back movement of the first trace bar assembly 5. The transmission in three directions is screw rod transmission.

Further, as shown in fig. 8, the wire feeding mechanism 9 includes a supporting seat 901 screwed to the base 1, a wire feeding slide rail 902 is disposed on the supporting seat 901, a wire feeding slide plate 903 is disposed on the wire feeding slide rail 902, a wire feeding roller 905 is connected to the wire feeding slide plate 903 through a pair of brackets 904, and the cutting wire 10 is wound on the wire feeding roller 905; a rotary motor 906 for driving the wire feed roller 905 is further installed at one side of the bracket 904.

Through the arrangement of the wire feeding sliding plate 903 and the wire feeding sliding rail 902, the position (X-direction movement) of the wire feeding roller 905 can be adjusted horizontally to adapt to the movement of the cutting wire 10 along with the first wire rod assembly 5.

Further, the cross-sectional dimension of the upright 2 at the position where the second trace rod assembly 6 is connected is larger than the cross-sectional dimension above the upright 2, and a distance is kept between the first trace rod assembly 5 and the upright 2, so as to ensure the moving space of the first trace rod assembly 5.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (10)

1. A wiring device of a linear cutting machine comprises a base, wherein an upright post is arranged on the base, and the wiring device is characterized in that a three-way movement assembly is arranged on the upright post, the three-way movement assembly is connected with a first wiring rod assembly through a first connecting plate, a second wiring rod assembly is arranged below the first wiring rod assembly, and the second wiring rod assembly is connected with the upright post through a second connecting plate; the side faces, far away from the upright post, of the first routing rod assembly and the second routing rod assembly are connected with connecting rod assemblies, and the end parts of the first routing rod assembly and the second routing rod assembly are provided with routing wheel assemblies; one side of the base, which is close to the upright post, is also provided with a wire feeding mechanism, the wire feeding mechanism is provided with a cutting wire, and the cutting wire sequentially passes through the wire routing wheel assembly and is circularly connected with the wire feeding mechanism.

2. The wire routing device of the linear cutting machine according to claim 1, wherein the first wire bar assembly and the second wire bar assembly are identical in structure and each comprise a main rod body; a round rod penetrates through the main rod body in the length direction, and a first hinge seat and the routing wheel assembly are respectively sleeved at two ends of the round rod; the first hinged seat is movably connected with the connecting rod assembly through a connecting shaft, and the connecting shaft is perpendicular to the round rod.

3. The wire routing device of the wire cutting machine according to claim 2, wherein the main rod body of the first wire rod assembly is screwed with the first connecting plate through a transition plate, the transition plate is screwed with the corresponding main rod body at multiple points in the length direction, and the main rod body of the second wire rod assembly is screwed with the second connecting plate at multiple points in the length direction.

4. The routing device of a linear cutting machine according to claim 2, wherein a limiting plate is screwed on the end surface of the first hinge seat perpendicular to the connecting shaft.

5. The wire routing device of the wire cutting machine according to claim 1, wherein the wire routing wheel assembly comprises a wheel frame, one end of the wheel frame is connected with the first wire routing rod assembly or the second wire routing rod assembly, the other end of the wheel frame is provided with a U-shaped opening, a wire routing wheel is sleeved in the U-shaped opening, and side limiting plates are sleeved at two ends of the wire routing wheel; a guide plate is arranged below the wire travelling wheel, a wire travelling hole is formed in the guide plate, and the guide plate is in threaded connection with the side limiting plate or the lower part of the wheel carrier; one of the side limiting plates is movably connected with the connecting rod assembly.

6. The routing device of the linear cutting machine according to claim 1, wherein the connecting rod assembly comprises a vertical first connecting rod and a pair of horizontal second connecting rods, wherein two ends of the first connecting rod are respectively sleeved with a second hinge seat, and the second hinge seats are respectively movably connected with one end of the first routing rod assembly or one end of the second routing rod assembly close to the upright; the pair of second connecting rods are respectively parallel and arranged along the length direction of the first routing rod assembly and the second routing rod assembly, and both ends of each second connecting rod are respectively sleeved with a third hinge seat; the third hinge seat at one end is movably connected with the second hinge seat through a rotating shaft, and the third hinge seat at the other end is movably connected with the wire walking wheel assembly through a rotating shaft.

7. The routing device of the linear cutting machine according to claim 6, wherein the second hinge seat and the third hinge seat are both of a cubic structure, the cubic structure is provided with a plurality of hinge holes, and at least one surface of the cubic structure is provided with a connecting sheet.

8. The routing device of a linear cutting machine according to claim 1, wherein the three-way movement assembly comprises a Z-directional slide rail and a Z-directional driving motor which are arranged on the side surface of the upright, and the Z-directional slide rail is provided with a Z-directional sliding plate and is driven by the Z-directional driving motor; an L-shaped plate is screwed on the side surface of the Z-direction sliding plate, a plurality of X-direction sliding blocks are screwed below the L-shaped plate, X-direction sliding rails are connected below the X-direction sliding blocks, an X-direction connecting plate is screwed below the X-direction sliding rails, and an X-direction driving motor is mounted on the X-direction connecting plate; x has a plurality of Y to the slider to the below spiro union of connecting plate, Y is connected with Y to the slide rail to the below of slider, Y has Y to the connecting plate to the below spiro union of slide rail, Y is to installing Y on the connecting plate to driving motor, Y connects to the below spiro union of connecting plate first connecting plate.

9. The wire-routing device of the linear cutting machine according to claim 1, wherein the wire-feeding mechanism comprises a support seat screwed on the base, a wire-feeding slide rail is arranged on the support seat, a wire-feeding slide plate is arranged on the wire-feeding slide rail, a wire-feeding roller is connected to the wire-feeding slide plate through a pair of supports, and the cutting wire is wound on the wire-feeding roller; and a rotating motor for driving the wire feeding roller is further installed on one side of the support.

10. The routing device of the linear cutting machine according to claim 1, wherein the cross-sectional dimension of the column at the position where the second routing rod assembly is connected with the column is larger than the upper cross-sectional dimension of the column, and a distance is kept between the first routing rod assembly and the column.

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