CN113085029A

CN113085029A - Sheet material wire cutting equipment for new material processing

Info

Publication number: CN113085029A
Application number: CN202110499671.7A
Authority: CN
Inventors: 马桂军
Original assignee: Individual
Current assignee: Anhui Crocodile Nica New Material Co ltd
Priority date: 2021-05-07
Filing date: 2021-05-07
Publication date: 2021-07-09
Anticipated expiration: 2041-05-07
Also published as: CN113085029B

Abstract

The invention relates to a plate linear cutting device, in particular to a plate linear cutting device for processing new materials, which comprises a cutting linkage mechanism, a cutting line transverse moving mechanism and a plate transverse mechanism, wherein a steel wire can be vertically shaken by the device to enable the device to have a cutting function, the device can realize self-protection under excessive force when the steel wire cuts plates, the device can intermittently convey the plates, the device can enable the steel wire to transversely move, the device can transversely convey the plates to facilitate the cutting function when the steel wire transversely moves, the cutting linkage mechanism is connected with the cutting line transverse moving mechanism, the cutting line transverse moving mechanism is connected with the plate transverse mechanism, and the plate transverse mechanism is connected with the cutting linkage mechanism.

Description

Sheet material wire cutting equipment for new material processing

Technical Field

The invention relates to a plate wire cutting device, in particular to a plate wire cutting device for processing a new material.

Background

When a new material is processed, wire cutting processing is often needed, most of the existing devices cannot independently complete the cutting of the new material plate, but no good plate wire cutting device exists in the market, so the plate wire cutting device for processing the new material is designed.

Disclosure of Invention

The invention mainly solves the technical problem of providing the plate linear cutting equipment for processing the new material, the equipment can shake a steel wire up and down to enable the steel wire to have the cutting function, the equipment can realize self-protection under the action of excessive force when the steel wire cuts the plate, the equipment can intermittently convey the plate, the equipment can enable the steel wire to transversely move, and the equipment can transversely convey the plate to have the beneficial cutting function when the steel wire transversely moves.

The invention relates to plate linear cutting equipment, in particular to plate linear cutting equipment for processing new materials, which comprises a cutting linkage mechanism, a cutting line transverse moving mechanism and a plate transverse mechanism, wherein steel wires can be vertically shaken by the equipment to enable the equipment to have a cutting function, the equipment can realize self-protection under excessive force when the steel wires cut plates, the equipment can intermittently convey the plates, the equipment can enable the steel wires to transversely move, and the equipment can transversely convey the plates to have a beneficial cutting function when the steel wires transversely move.

The cutting linkage mechanism is connected with the cutting line transverse moving mechanism, the cutting line transverse moving mechanism is connected with the plate transverse mechanism, and the plate transverse mechanism is connected with the cutting linkage mechanism.

As a further optimization of the technical scheme, the plate linear cutting equipment for processing the new material comprises a motor a, a motor shaft a, a belt a, a connecting shaft a, a cam a, a steel wire, a winding column, a limiting plate a, a torsion spring, a connecting shaft b, a connecting plate a, a connecting plate b, a friction wheel a, a connecting shaft c, a belt b, a connecting shaft d, an externally threaded friction wheel, a brake plate, a sliding block a, a connecting plate l, a T-shaped sliding block, a sliding rail, a belt c, a connecting shaft e, a friction wheel b, a connecting shaft f, a connecting plate c, a belt d, a friction wheel c, a connecting rotating column, a propeller a, a belt e, a connecting shaft g, a friction wheel d, a connecting shaft h, a propeller b, a switching sliding block, a switching sliding rail, a spring a, a connecting shaft h, a connecting plate d, a connecting plate e, a connecting, A connecting shaft j, a connecting plate f, a belt f, a connecting shaft k, a friction wheel f, a friction wheel g, a connecting shaft l, a connecting plate g, a belt g, a connecting shaft m, a connecting plate h, a connecting plate i, a connecting plate j, a belt h, a connecting shaft n, a connecting plate k, a friction wheel h, a connecting shaft o, a belt i, a connecting shaft p, a conveying column, a micropore conveying belt, a conveying belt limiting plate and a connecting plate l, wherein a motor a is connected with a motor shaft a which is connected with the connecting plate i, the motor shaft a is connected with the belt a in a friction mode, the belt a is connected with the connecting shaft a in a friction mode, the connecting shaft a is connected with a cam a, the connecting shaft a is connected with a connecting plate l bearing, two ends of a steel wire are wound on the winding column, two ends of the steel wire are connected with the limiting, the winding post is connected with a connecting shaft b, the winding post is in friction connection with a friction wheel a, the initial torsion force of the torsion spring at the upper side is slightly larger than that of the torsion spring at the lower side, the torsion spring at the upper side is sleeved on the connecting shaft b and limited on the winding post and a connecting plate a, the torsion spring at the lower side is sleeved on the connecting shaft b and limited on the winding post and the connecting plate b, the connecting shaft b at the upper side is connected with two connecting plate a bearings, the connecting plate a is connected with a connecting plate h at the upper side, the connecting plate b is connected with a connecting plate h at the lower side, the friction wheel a is connected with a connecting shaft c, the connecting shaft c is in friction connection with a belt b, the connecting shaft c is connected with the connecting plate a bearing, the belt b is in friction connection with a connecting shaft d, the connecting shaft d, the brake plate is connected with a connecting plate h in a sliding manner, a sliding block a is connected with the connecting plate h in a sliding manner, a connecting plate l is connected with the connecting plate h, a T-shaped sliding block is connected with a sliding rail in a sliding manner, the sliding rail is connected with the connecting plate h, one end of a belt c is connected with a connecting shaft a in a friction manner, the other end of the belt c is connected with a connecting shaft e in a friction manner, the connecting shaft e is connected with a connecting plate i in a friction manner, the belt c is connected with a friction wheel b in a friction manner, the belt c is connected with a friction wheel e in a friction manner, the friction wheel b is connected with a connecting shaft f in a bearing manner, the connecting shaft f is connected with a connecting plate i in a bearing manner, the connecting plate c is connected with the connecting plate i in a friction manner, a belt d is connected with two connecting shafts f, a belt e is in friction connection with a friction wheel d, a connecting shaft g is in bearing connection with a connecting plate i, the friction wheel d is in bearing connection with a connecting shaft h, the connecting shaft h is in bearing connection with a connecting plate h, a switching slide block is in sliding connection with a switching slide rail, the switching slide block is connected with the connecting shaft h, the switching slide rail is connected with the connecting plate h, a spring a is sleeved on the connecting shaft h and limited on the switching slide block and the connecting plate e, the connecting shaft h is connected with the connecting plate d, the connecting shaft h is in sliding connection with the connecting plate e, the connecting plate e is connected with the connecting plate h, the connecting shaft i is connected with a special-shaped friction wheel, the friction wheel e is connected with a connecting shaft j, the connecting shaft j is in sliding connection with a connecting plate f, the connecting plate f is in bearing connection with a connecting shaft k, the connecting plate f, the connecting shaft k is connected with a friction wheel f, the friction wheel g is connected with a connecting shaft l, the connecting shaft l is connected with a connecting plate g bearing, the connecting shaft l is connected with a belt g in a friction mode, the connecting plate g is connected with a connecting shaft m bearing, the belt g is connected with a connecting shaft m bearing, the connecting plate h is connected with a connecting plate i, the connecting plate i is connected with a connecting plate j, one end of the belt h is connected with a connecting shaft m bearing, the other end of the belt h is connected with a connecting shaft n bearing, the belt h is connected with a friction wheel h, the connecting shaft n is connected with a connecting plate k bearing, the connecting plate k is connected with a connecting plate i, the friction wheel h is connected with a connecting shaft o, the connecting shaft o is connected with a connecting plate i bearing, one end of the belt i is connected with a connecting shaft o in a, the conveyer belt is connected with conveyer belt limiting plate friction, and the conveyer belt limiting plate is connected with connecting plate i.

As a further optimization of the technical scheme, the invention relates to a plate linear cutting device for processing new materials, the cutting line lateral shifting mechanism comprises a motor b, a motor shaft b, a belt I, a connecting shaft I, a limiting plate I, a connecting shaft II, a spring I and an internal thread sliding block, the motor b is connected with the motor shaft b, the motor b is connected with a connecting plate i, the motor shaft b is in friction connection with the belt I, the belt I is in friction connection with the connecting shaft I, the connecting shaft I is in sliding connection with the connecting plate I, a limiting plate I close to the center of the equipment is connected with the connecting plate I, another limiting plate I is in sliding connection with the connecting plate I, the connecting shaft II is in sliding connection with the limiting plate I close to the center of the equipment, the connecting shaft II is connected with another connecting plate I, the spring I is sleeved on the connecting shaft II and limited to the two.

As a further optimization of the technical scheme, the invention relates to a plate linear cutting device for processing new materials, wherein a plate transverse mechanism comprises a friction wheel I, a friction wheel II, a connecting shaft III, a belt II, a connecting shaft IV, a friction wheel III, a friction wheel IV, a connecting shaft V, a limiting wheel I, a friction wheel IV, a connecting shaft VI, a forward rotation transmission wheel, a forward rotation transmission plate, a reverse rotation transmission wheel, a reverse rotation transmission plate, a connecting plate I, a connecting plate II, a connecting plate III, a connecting plate IV, a connecting plate V, a connecting plate VI and a connecting plate VII, wherein the friction wheel I is in friction connection with the friction wheel II, the friction wheel I is connected with the connecting shaft I, the friction wheel II is connected with the connecting shaft III, the connecting shaft III is in friction connection with the connecting plate I, the belt II is in friction connection with the connecting shaft IV, the connecting shaft IV is connected with the friction wheel III, and the connecting shaft IV is, the friction wheel III is in friction connection with the friction wheel IV, the friction wheel IV is connected with the connecting shaft IV, the connecting shaft IV is connected with the limiting wheel I, the connecting shaft IV is in sliding connection with the connecting plate I, the limiting wheel I is in sliding connection with the connecting plate I, the friction wheel IV is connected with the connecting shaft IV, one connecting shaft IV is connected with the forward rotation conveying wheel, the other connecting shaft IV is connected with the reverse rotation conveying wheel, the forward rotation conveying wheel is connected with the forward rotation conveying plate I, the forward rotation conveying plate is connected with the connecting plate I, the reverse rotation conveying wheel is connected with the reverse rotation conveying plate, the reverse rotation conveying plate is connected with the connecting plate IV, the connecting plate I is connected with the connecting plate II, the connecting plate I is in sliding connection with the connecting plate III, the connecting plate II is in sliding connection with the micropore conveying belt, the connecting plate III is connected with the connecting plate VII, and the connecting plate five is connected with the micropore conveying belt in a sliding manner, the connecting plate six is connected with the connecting plate seven, and the connecting plate seven is connected with the connecting plate i.

The invention relates to a plate linear cutting device for new material processing, which has the beneficial effects that:

according to the plate linear cutting equipment for processing the new material, disclosed by the invention, the steel wire can be vertically shaken to enable the plate linear cutting equipment to have a cutting function, the equipment can realize self-protection under the action of excessive force when the steel wire is used for cutting the plate, the equipment can intermittently convey the plate, the steel wire can transversely move, and the equipment can transversely convey the plate to have a beneficial cutting function when the steel wire transversely moves.

Drawings

The invention is described in further detail below with reference to the accompanying drawings and specific embodiments.

Fig. 1 is a schematic structural diagram of a plate linear cutting device for processing a new material according to the present invention.

Fig. 2 is a schematic structural diagram of a plate linear cutting device for processing a new material according to the present invention.

Fig. 3 is a first structural schematic diagram of a cutting linkage mechanism 1 of the plate linear cutting device for processing new materials according to the present invention.

Fig. 4 is a second structural schematic diagram of the cutting linkage mechanism 1 of the plate linear cutting device for processing new materials according to the present invention.

Fig. 5 is a third structural schematic view of the cutting linkage mechanism 1 of the plate linear cutting device for processing new materials according to the present invention.

Fig. 6 is a fourth structural schematic view of the cutting linkage mechanism 1 of the plate linear cutting device for processing new materials according to the present invention.

Fig. 7 is a fifth structural schematic view of the cutting linkage mechanism 1 of the plate linear cutting device for processing new materials according to the present invention.

Fig. 8 is a sixth schematic structural view of the cutting linkage mechanism 1 of the plate linear cutting device for processing new materials according to the present invention.

Fig. 9 is a seventh structural schematic view of the cutting linkage mechanism 1 of the plate linear cutting device for processing new materials.

Fig. 10 is a first structural schematic diagram of a cutting line transverse moving mechanism 2 of a plate material linear cutting device for processing new materials according to the present invention.

Fig. 11 is a second structural schematic diagram of the cutting line transverse moving mechanism 2 of the plate linear cutting device for processing new materials according to the present invention.

Fig. 12 is a first structural schematic diagram of a plate transverse mechanism 3 of a plate linear cutting device for processing new materials according to the present invention.

Fig. 13 is a second structural schematic diagram of a plate transverse mechanism 3 of the plate linear cutting device for processing new materials according to the present invention.

Fig. 14 is a third structural schematic diagram of a plate transverse mechanism 3 of the plate linear cutting device for processing new materials.

Fig. 15 is a fourth schematic structural diagram of the plate transverse mechanism 3 of the plate linear cutting device for processing new materials.

In the figure: a cutting linkage mechanism 1; motor a 1-1; motor shaft a 1-2; belt a 1-3; connecting shaft a 1-4; cam a 1-5; 1-6 parts of steel wire; 1-7 of a winding column; the limiting plate a 1-8; 1-9 parts of a torsion spring; connecting shaft b 1-10; connection board a 1-11; connecting plate b 1-12; friction wheel a 1-13; connecting shaft c 1-14; belts b 1-15; connecting shaft d 1-16; 1-17 parts of external thread friction wheel; brake plates 1-18; slider a 1-19; web l 1-20; t-shaped sliding blocks 1-21; slide rails 1-22; belts c 1-23; connecting shafts e 1-24; friction wheels b 1-25; connecting shafts f 1-26; connecting plates c 1-27; belts d 1-28; friction wheels c 1-29; connecting the rotating columns 1-30; propeller a 1-31; belts e 1-32; connecting shafts g 1-33; friction wheels d 1-34; connecting shafts h 1-35; propellers b 1-36; switching sliders 1 to 37; switching the slide rails 1-38; springs a 1-39; connecting shafts h 1-40; connecting plates d 1-41; connecting plates e 1-42; connecting shafts i 1-43; 1-44 of special-shaped friction wheels; friction wheels e 1-45; connecting shafts j 1-46; connecting plates f 1-47; belts f 1-48; connecting shafts k 1-49; friction wheels f 1-50; friction wheels g 1-51; connecting shafts l 1-52; connecting plates g 1-53; belts g 1-54; connecting shafts m 1-55; connecting plates h 1-56; connecting plates i 1-57; web j 1-58; belts h 1-59; connecting shafts n 1-60; connecting plates k 1-61; friction wheels h 1-62; connecting shafts o 1-63; belts i 1-64; connecting shafts p 1-65; transfer columns 1-66; a microporous conveyor belt 1-67; conveyor belt limiting plates 1-68; web l 1-69; a cutting line transverse moving mechanism 2; motor b 2-1; motor shaft b 2-2; 2-3 parts of a first belt; connecting shafts I2-4; 2-5 parts of a first limiting plate; connecting shafts II 2-6; 2-7 parts of a first spring; 2-8 parts of an internal thread sliding block; a plate transverse mechanism 3; 3-1 of a first friction wheel; 3-2 parts of a second friction wheel; connecting shaft III 3-3; 3-4 parts of a second belt; connecting shaft IV 3-5; 3-6 parts of a friction wheel III; 3-7 parts of a friction wheel; connecting shafts five 3-8; 3-9 parts of a first limiting wheel; 3-10 parts of a friction wheel; connecting shaft six 3-11; forward rotating transfer wheels 3-12; forward rotating the transfer plates 3-13; counter-rotating the transfer wheels 3-14; reversely rotating the transfer plates 3-15; 3-16 of a first connecting plate; 3-17 of a second connecting plate; 3-18 parts of a connecting plate; connecting plates IV 3-19; 3-20 parts of a connecting plate; six connecting plates 3-21; and connecting plates seven 3-22.

Detailed Description

The first embodiment is as follows:

the present invention relates to a plate linear cutting device for processing a new material, and more particularly to a plate linear cutting device for processing a new material, which includes a cutting link mechanism 1, a cutting line transverse moving mechanism 2, and a plate transverse mechanism 3, and the device can rock a steel wire up and down to have a cutting function, can self-protect the device by excessive force when the steel wire cuts a plate, can intermittently convey the plate, can transversely move the steel wire, and can transversely convey the plate to facilitate the cutting function when the steel wire transversely moves.

The cutting linkage mechanism 1 is connected with the cutting line transverse moving mechanism 2, the cutting line transverse moving mechanism 2 is connected with the plate transverse mechanism 3, and the plate transverse mechanism 3 is connected with the cutting linkage mechanism 1.

The second embodiment is as follows:

the following describes the present embodiment with reference to fig. 1, fig. 2, fig. 3, fig. 4, fig. 5, fig. 6, fig. 7, fig. 8, fig. 9, fig. 10, fig. 11, fig. 12, fig. 13, fig. 14, and fig. 15, and the present embodiment further describes the present embodiment, where the cutting linkage mechanism 1 includes a motor a1-1, a motor shaft a1-2, a belt a1-3, a connecting shaft a1-4, a cam a1-5, a steel wire 1-6, a winding post 1-7, a limit plate a1-8, a torsion spring 1-9, a connecting shaft b1-10, a connecting plate a1-11, a connecting plate b1-12, a friction wheel a1-13, a connecting shaft c1-14, a belt b1-15, a d1-16, an external thread friction wheel 1-17, a brake plate 1-18, a sliding block a1-19, a connecting shaft l1-20, T-shaped sliding block 1-21, sliding rail 1-22, belt c1-23, connecting shaft e1-24, friction wheel b1-25, connecting shaft f1-26, connecting plate c1-27, belt d1-28, friction wheel c1-29, connecting rotating column 1-30, screw a1-31, belt e1-32, connecting shaft g1-33, friction wheel d1-34, connecting shaft h1-35, screw b1-36, switching sliding block 1-37, switching sliding rail 1-38, spring a1-39, connecting shaft h1-40, connecting plate d1-41, connecting plate e1-42, connecting shaft i1-43, special-shaped friction wheel 1-44, friction wheel e1-45, connecting shaft 59j 24-46, connecting plate f1-47, belt f1-48, connecting shaft k1-49, Friction wheel f1-50, friction wheel g1-51, connecting shaft l1-52, connecting plate g1-53, belt g1-54, connecting shaft m1-55, connecting plate h1-56, connecting plate i1-57, connecting plate j1-58, belt h1-59, connecting shaft n1-60, connecting plate k1-61, friction wheel h1-62, connecting shaft o1-63, belt i1-64, connecting shaft p1-65, transmission column 1-66, microporous transmission belt 1-67, transmission belt limit plate 1-68, connecting plate l1-69, motor a1-1 is connected with motor shaft a1-2, motor a1-1 is connected with connecting plate i1-57, motor shaft a1-2 is connected with belt a1-3 in a friction mode, belt a1-3 is connected with connecting shaft a1-4 in friction mode, the connecting shaft a1-4 is connected with the cam a1-5, the connecting shaft a1-4 is connected with the connecting plate l1-20 through a bearing, two ends of a steel wire 1-6 are wound on winding columns 1-7, two ends of the steel wire are connected with limit plates a1-8, the steel wire 1-6 is connected with sliding blocks a1-19 in a sliding mode, the steel wire 1-6 is connected with connecting plates l1-20 in a sliding mode, the steel wire 1-6 is connected with T-shaped sliding blocks 1-21 in a sliding mode, the winding columns 1-7 are connected with limit plates a1-8, the winding columns 1-7 are connected with connecting shafts b1-10, the winding columns 1-7 are connected with friction wheels a1-13 in a friction mode, the initial torsion force of torsion springs 1-9 on the upper side is slightly larger than the torsion springs 1-9 on the lower side, the torsion springs 1-9 on the upper side are sleeved on the connecting shaft b, the torsion spring 1-9 at the lower side is sleeved on the connecting shaft b1-10 and limited on the winding column 1-7 and the connecting plate b1-12, the connecting shaft b1-10 at the upper side is in bearing connection with the two connecting plates a1-11, the connecting shaft b1-10 at the lower side is in bearing connection with the two connecting plates b1-12, the connecting plate a1-11 is in bearing connection with the connecting plate h1-56 at the upper side, the connecting plate b1-12 is in bearing connection with the connecting plate h1-56 at the lower side, the friction wheels a1-13 are in friction connection with the connecting shaft c1-14, the connecting shaft c1-14 is in friction connection with the belt b1-15, the connecting shaft c1-14 is in bearing connection with the connecting plate a1-11, the belt b1-15 is in friction connection with the connecting shaft d1-16, the connecting shaft d1-16 is in friction connection with the, the external thread friction wheels 1-17 are in friction connection with the brake plates 1-18, the brake plates 1-18 are in sliding connection with connecting plates h1-56, sliding blocks a1-19 are in sliding connection with connecting plates h1-56, connecting plates l1-20 are in sliding connection with connecting plates h1-56, T-shaped sliding blocks 1-21 are in sliding connection with sliding rails 1-22, sliding rails 1-22 are in sliding connection with connecting plates h1-56, one end of a belt c1-23 is in friction connection with a connecting shaft a1-4, the other end of the belt c1-23 is in friction connection with a connecting shaft e1-24, a connecting shaft e1-24 is in friction connection with connecting plates i1-57, a belt c1-23 is in friction connection with friction wheels b1-25, a belt c1-23 is in friction connection with friction wheels e1-45, friction wheels b1-25 are in connection with connecting shafts f1-26, connecting shafts f1, connecting shafts f1-26 are in bearing connection with connecting plates i1-57, connecting plates c1-27 are in bearing connection with connecting plates i1-57, belts d1-28 are in friction connection with two connecting shafts f1-26, belts d1-28 are in friction connection with friction wheels c1-29, friction wheels c1-29 are in friction connection with connecting rotating columns 1-30, connecting rotating columns 1-30 are in friction connection with propellers a1-31, one ends of belts e1-32 are in friction connection with connecting shafts e1-24, the other ends of belts e 1-33 are in friction connection with connecting shafts g1-33, belts e1-32 are in friction connection with friction wheels d1-34, connecting shafts g1-33 are in bearing connection with connecting plates i1-57, friction wheels d1-34 are in bearing connection with connecting shafts h1-35, h1-35 are in connection with propellers b1-36, h1-35 are in bearing connection with connecting plates i 1-56, the switching slide block 1-37 is connected with the switching slide rail 1-38 in a sliding manner, the switching slide block 1-37 is connected with a connecting shaft h1-40, the switching slide block 1-37 is connected with a connecting shaft i1-43, the switching slide rail 1-38 is connected with a connecting plate h1-56, a spring a1-39 is sleeved on the connecting shaft h1-40 and limited on the switching slide block 1-37 and the connecting plate e1-42, the connecting shaft h1-40 is connected with a connecting plate d1-41, the connecting shaft h1-40 is connected with a connecting plate e1-42 in a sliding manner, the connecting plate e1-42 is connected with a connecting plate h1-56, the connecting shaft i1-43 is connected with a special-shaped friction wheel 1-44, the friction wheel e1-45 is connected with a connecting shaft j1-46, the connecting shaft 596j 8-46 is connected with a connecting plate f1-47 in a sliding manner, the connecting plates f1-47 are in bearing connection with connecting shafts k1-49, the connecting plates f1-47 are in bearing connection with connecting plates h1-56, the belts f1-48 are in friction connection with the connecting shafts k1-49, the connecting shafts k1-49 are in friction connection with friction wheels f1-50, the friction wheels g1-51 are in bearing connection with connecting shafts l1-52, the connecting shafts l1-52 are in bearing connection with connecting plates g1-53, the connecting shafts l1-52 are in friction connection with the belts g1-54, the connecting plates g1-53 are in bearing connection with connecting shafts m1-55, the belts g1-54 are in bearing connection with connecting shafts m1-55, the connecting plates h1-56 are in bearing connection with connecting plates i1-57, the connecting plates i1-57 are in bearing connection with connecting plates j1-58, one ends of the belts 1-59 are in bearing connection with the connecting shafts m1-55, the belt h1-59 is in friction connection with a friction wheel h1-62, the connecting shaft n1-60 is in bearing connection with a connecting plate k1-61, the connecting plate k1-61 is in friction connection with a connecting plate i1-57, the friction wheel h1-62 is in friction connection with a connecting shaft o1-63, the connecting shaft o1-63 is in bearing connection with a connecting plate i1-57, one end of the belt i1-64 is in friction connection with the connecting shaft o1-63, the other end of the belt i1-64 is in friction connection with a connecting shaft p1-65, the connecting shaft p1-65 is connected with the conveying column 1-66, the connecting shaft p1-65 is in bearing connection with a connecting plate i1-57, the conveying column 1-66 is in friction connection with the micropore conveying belt 1-67, the conveying belt 1-67 is in friction connection with the conveying.

The third concrete implementation mode:

referring to fig. 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, the present embodiment is further described, wherein the transversal cutting line moving mechanism 2 includes a motor b2-1, a motor shaft b2-2, a belt i 2-3, a connecting shaft i 2-4, a first limit plate 2-5, a connecting shaft ii 2-6, a spring i 2-7, an internally threaded slider 2-8, a motor b2-1 connected with the motor shaft b2-2, a motor b2-1 connected with the connecting shaft i1-57, a motor shaft b2-2 connected with the belt i 2-3, a belt i 2-3 connected with the connecting shaft i 2-4 by friction, a belt i 2-4 connected with the connecting shaft i 1-20 by sliding, a first limiting plate 2-5 close to the center of the device is connected with a connecting plate l1-20, a first limiting plate 2-5 is connected with a connecting plate l1-20 in a sliding mode, a second connecting shaft 2-6 is connected with a first limiting plate 2-5 close to the center of the device in a sliding mode, a second connecting shaft 2-6 is connected with a second connecting plate l1-20 in a sliding mode, a first spring 2-7 is sleeved on a second connecting shaft 2-6 and limited on the first limiting plate 2-5, an internal thread sliding block 2-8 is connected with a sliding block a1-19, an internal thread sliding block 2-8 is connected with a first connecting shaft 2-4 in a threaded mode, the device can enable a steel wire to shake up and down to enable the steel wire to have a cutting function, the device can achieve self-protecting effect when the steel wire cuts a plate, the device can intermittently, the motor a1-1 works to drive the motor shaft a1-2 to rotate, the motor shaft a1-2 rotates to drive the connecting shaft a1-4 to rotate through the belt a1-3, the connecting shaft a1-4 rotates to drive the cam a1-5 to rotate, the cam a1-5 rotates to drive the steel wire 1-6 to swing up and down, the steel wire 1-6 can automatically reset under the action of the two torsion springs 1-9, when the cut plate is too hard, the winding column 1-7 on the upper side is pulled to rotate greatly, the winding column 1-7 rotates to drive the friction wheel a1-13 to rotate to drive the connecting shaft c1-14 to rotate, the connecting shaft c1-14 rotates to rotate through the belt b1-15 to rotate the connecting shaft d1-16, the connecting shaft d1-16 rotates to drive the external thread friction wheel 1-17 to rotate, the external thread friction wheel 1-17 rotates to drive the brake plate 1-18 to move towards the direction of the When the brake plates 1-18 move to be in contact with the sliding blocks a1-19, the transverse movement of the sliding blocks a1-19 is limited, the T-shaped sliding blocks 1-21 on the lower side slide along with the sliding blocks a1-19 on the upper side in the sliding rails 1-22, when the motor b2-1 works, the motor b2-1 works to drive the motor shaft b2-2 to rotate, the motor shaft b2-2 rotates to drive the connecting shaft I2-4 to rotate through the belt I2-3, the connecting shaft I2-4 rotates to drive the sliding blocks a1-19 to slide on the connecting plates h1-56 on the upper side through the internal thread sliding blocks 2-8, the steel wire can transversely move at the moment, when the sliding blocks a1-19 slide on the connecting plates h1-56 on the upper side to be in contact with the switching sliding blocks 1-37, the sliding blocks a1-19 continuously slide and press the switching sliding blocks, the switching slider 1-37 can automatically reset under the action of a spring a1-39, the switching slider 1-37 drives the special-shaped friction wheel 1-44 to move through the connecting shaft i1-43 when moving, when the special-shaped friction wheel 1-44 moves to be simultaneously contacted with the friction wheel f1-50 and the friction wheel g1-51, the special-shaped friction wheel 1-44, the friction wheel f1-50 and the friction wheel g1-51 are simultaneously in friction connection, the connecting shaft a1-4 drives the connecting shaft e1-24 to rotate through the belt c1-23 when rotating, the belt c1-23 also drives the friction wheel e1-45 to rotate when moving, the friction wheel e1-45 rotates through the connecting shaft j1-46 and the belt f1-48 to drive the k1-49 to rotate, the connecting shaft k1-49 rotates through the friction wheel f1-50 and the friction wheel 1-44 to drive the friction wheel 39g 1-51 to rotate, the friction wheels g1-51 rotate to drive the connecting shafts m1-55 to rotate through the connecting shafts l1-52 and the belts g1-54, the connecting shafts m1-55 rotate to drive the connecting shafts n1-60 to rotate through the belts h1-59, the belts h1-59 also drive the connecting shafts o1-63 to rotate through the friction wheels h1-62, the connecting shafts o1-63 rotate to drive the connecting shafts p1-65 to rotate through the belts i1-64, the connecting shafts p1-65 rotate to drive the micropore conveyor belts 1-67 to rotate through the conveying columns 1-66 and the conveyor belt limiting plates 1-68, at the moment, the micropore conveyor belts 1-67 can convey plates, namely the connecting plates h1-56 with the sliding blocks a1-19 transversely arranged on the upper side reciprocate once to convey materials on the micropore conveyor belts 1-67 twice, and the belts e1-32 also drive the connecting shafts g 8-33 to rotate through the belts e1-32 when the connecting shafts e1 In turn, when the belts e1-32 move, the friction wheels d1-34 drive the connecting shafts h1-35 to rotate, the connecting shafts h1-35 rotate to drive the propellers b1-36 to rotate, when the propellers b1-36 rotate, the plates can be tightly adsorbed on the microporous conveyor belts 1-67, the cutting function is facilitated, when the belts c1-23 move, the friction wheels b1-25 drive the connecting shafts f1-26 to rotate, the connecting shafts f1-26 rotate and drive the friction wheels c1-29 to rotate through the belts d1-28, the friction wheels c1-29 rotate and drive the propellers a1-31 to rotate through the connecting rotating columns 1-30, and when the propellers a1-31 rotate, the garbage generated when the steel wires cut the plates can be adsorbed to the lower part of the equipment, and the cutting function is further facilitated.

The fourth concrete implementation mode:

the following describes the present embodiment with reference to fig. 1, fig. 2, fig. 3, fig. 4, fig. 5, fig. 6, fig. 7, fig. 8, fig. 9, fig. 10, fig. 11, fig. 12, fig. 13, fig. 14, and fig. 15, and the present embodiment further describes the present embodiment, in which the plate material transverse mechanism 3 includes a first friction wheel 3-1, a second friction wheel 3-2, a third connecting shaft 3-3, a second belt 3-4, a fourth connecting shaft 3-5, a third friction wheel 3-6, a fourth friction wheel 3-7, a fifth connecting shaft 3-8, a first limiting wheel 3-9, a fourth friction wheel 3-10, a sixth connecting shaft 3-11, a forward rotation transmission wheel 3-12, a forward rotation transmission plate 3-13, a reverse rotation transmission wheel 3-14, a reverse rotation transmission plate 3-15, and a first connecting plate 3-16, 3-17 parts of a second connecting plate, 3-18 parts of a third connecting plate, 3-19 parts of a fourth connecting plate, 3-20 parts of a fifth connecting plate, 3-21 parts of a sixth connecting plate and 3-22 parts of a seventh connecting plate, 3-1 parts of a first friction wheel and a second friction wheel are in friction connection, 3-1 parts of the first friction wheel are connected with 2-4 parts of a first connecting shaft, 3-2 parts of the second friction wheel are connected with 3-3 parts of a third connecting shaft, 3-3 parts of the third connecting shaft are in friction connection with 3-4 parts of a second belt, 3-3 parts of the third connecting shaft are connected with an i1-57 bearing part of the connecting plate, 3-4 parts of the second belt are in friction connection with 3-5 parts of the fourth connecting shaft, 3-5 parts of the fourth connecting shaft are connected with 3-6 parts of the third friction wheel, 3-5, the friction wheel IV 3-7 is connected with the connecting shaft IV 3-8, the connecting shaft IV 3-8 is connected with the limiting wheel I3-9, the connecting shaft IV 3-8 is connected with the connecting plate I1-57 in a sliding way, the limiting wheel I3-9 is connected with the connecting plate I1-57 in a sliding way, the friction wheel IV 3-10 is connected with the connecting shaft IV 3-11, one connecting shaft IV 3-11 is connected with the forward rotation transmission wheel 3-12, the other connecting shaft IV 3-11 is connected with the reverse rotation transmission wheel 3-14, the forward rotation transmission wheel 3-12 is connected with the forward rotation transmission plate 3-13, the forward rotation transmission plate 3-13 is connected with the connecting plate IV 3-16, the reverse rotation transmission wheel 3-14 is connected with the reverse rotation transmission plate 3-15, the reverse rotation transmission plate 3-15 is connected with the connecting plate IV 3-19, the first connecting plate 3-16 is connected with the second connecting plate 3-17, the first connecting plate 3-16 is connected with the third connecting plate 3-18 in a sliding manner, the second connecting plate 3-17 is connected with the microporous conveyor belt 1-67 in a sliding manner, the third connecting plate 3-18 is connected with the seventh connecting plate 3-22, the fourth connecting plate 3-19 is connected with the fifth connecting plate 3-20, the fourth connecting plate 3-19 is connected with the sixth connecting plate 3-21 in a sliding manner, the fifth connecting plate 3-20 is connected with the microporous conveyor belt 1-67 in a sliding manner, the sixth connecting plate 3-21 is connected with the seventh connecting plate 3-22, the seventh connecting plate 3-22 is connected with the i1-57, the device can transversely transmit the plate to aid cutting function when the steel wire transversely moves, and drives the third connecting shaft 3-3 to rotate by the first friction wheel 3-1 and the second friction wheel, the connecting shaft III 3-3 rotates to drive the connecting shaft IV 3-5 to rotate through the belt II 3-4, the connecting shaft IV 3-5 rotates to rotate the friction wheel III 3-6, the friction wheel III 3-6 rotates to drive the connecting shaft V3-8 to slide in a semicircular groove on the connecting plate i1-57 under the limitation of the limiting wheel I3-9 through the friction wheel IV 3-7, namely, the connecting shaft IV 3-5 rotates in the forward direction to drive the upper friction wheel IV 3-10 to rotate, the lower friction wheel IV 3-10 rotates in the reverse direction to drive the lower friction wheel IV 3-10 to rotate, the friction wheel IV 3-10 rotates to drive the connecting shaft VI 3-11 to rotate, when the connecting shaft VI 3-11 rotates, the connecting shaft VI 3-12 and the forward rotation transmission plate 3-13 can drive the connecting plate I3-16 and the connecting plate II 3-17 to move towards the center of, when the second connecting plate 3-17 moves, the plates on the microporous conveyor belts 1-67 can be driven to the center of the equipment, and similarly, under the action of the reverse rotating conveying wheels 3-14 and the reverse rotating conveying plates 3-15, the fifth connecting plate 3-20 can also drive the plates to the center of the equipment.

The working principle of the device is as follows: the device can shake the steel wire up and down to enable the steel wire to have a cutting function, the device can be self-protected by over force when the steel wire cuts a plate, the device can intermittently convey the plate, the device can enable the steel wire to move transversely, the motor a1-1 works, the motor a1-1 works to drive the motor shaft a1-2 to rotate, the motor shaft a1-2 rotates to drive the connecting shaft a1-4 to rotate through the belt a1-3, the connecting shaft a1-4 rotates to drive the cam a1-5 to rotate, the cam a1-5 rotates to drive the steel wire 1-6 to shake up and down, the steel wire 1-6 can automatically reset under the action of the two torsion springs 1-9, when the cut plate is too hard, the winding column 1-7 on the upper side is pulled to rotate greatly by the connecting shaft, the winding column 1-7 rotates to drive the friction wheel a1-13 to rotate to drive the, the connecting shaft c1-14 rotates through the belt b1-15 to rotate the connecting shaft d1-16, the connecting shaft d1-16 rotates to drive the external thread friction wheel 1-17 to rotate, the external thread friction wheel 1-17 rotates to drive the brake plate 1-18 to move towards the direction of the sliding block a1-19, when the brake plate 1-18 moves to be contacted with the sliding block a1-19, the transverse movement of the sliding block a1-19 is limited, the lower T-shaped sliding block 1-21 slides along the upper sliding block a1-19 in the sliding rail 1-22, when the motor b2-1 works, the motor b2-1 works to drive the motor shaft b2-2 to rotate, the motor shaft b2-2 rotates through the connecting shaft I2-3 to drive the connecting shaft I2-4 to rotate, the first 2-4 rotates through the internal thread sliding block 2-8 to drive the connecting plate h1 of the sliding block a1-19 at the upper side 56, the steel wire can transversely move at the moment, when the sliding blocks a1-19 slide on the connecting plates h1-56 at the upper side to be contacted with the switching sliding blocks 1-37, the sliding blocks a1-19 press the switching sliding blocks 1-37 when continuing to slide, the switching sliding blocks 1-37 can automatically reset under the action of the springs a1-39, the switching sliding blocks 1-37 drive the special-shaped friction wheels 1-44 to move through the connecting shafts i1-43 when moving, when the special-shaped friction wheels 1-44 move to be contacted with the friction wheels f1-50 and the friction wheels g1-51 simultaneously, the special-shaped friction wheels 1-44 are in friction connection with the friction wheels f1-50 and the friction wheels g1-51 simultaneously, the connecting shafts a1-4 rotate, the connecting shafts a 1-23 drive the e1-24 to rotate, and when the belt c1-23 moves, the friction wheels e1-45 are also driven to rotate, the friction wheel e1-45 rotates to drive the connecting shaft k1-49 to rotate through the connecting shaft j1-46 and the belt f1-48, the connecting shaft k1-49 rotates to drive the friction wheel g1-51 to rotate through the friction wheel f1-50 and the special-shaped friction wheel 1-44, the friction wheel g1-51 rotates to drive the connecting shaft m1-55 to rotate through the connecting shaft l1-52 and the belt g1-54, the connecting shaft m1-55 rotates to drive the connecting shaft n1-60 to rotate through the belt h1-59, the belt h1-59 also drives the connecting shaft o1-63 to rotate through the friction wheel h1-62, the connecting shaft o1-63 rotates to drive the connecting shaft p1-65 to rotate through the belt i1-64, the microporous conveyor belt 1-67 is driven to rotate through the conveyor columns 1-66 and the limiting plates 1-68 when the p1-65 rotates, at the moment, the microporous conveyor belts 1-67 can convey plates, namely, the connecting plates h1-56 of the sliding blocks a1-19 transversely arranged on the upper side reciprocate once to convey materials on the microporous conveyor belts 1-67 twice, the connecting shafts e1-24 rotate and drive the connecting shafts g1-33 to rotate through the belts e1-32, the belts e1-32 move and drive the connecting shafts h1-35 to rotate through the friction wheels d1-34, the connecting shafts h1-35 rotate and drive the propellers b1-36 to rotate, the plates can be tightly adsorbed on the microporous conveyor belts 1-67 when the propellers b1-36 rotate, the cutting function is facilitated, the connecting shafts f1-26 are driven to rotate through the friction wheels b1-25 when the belts c1-23 move, the friction wheels f1-26 rotate and drive the friction wheels c1-29 to rotate through the belts d1-28, the friction wheel c1-29 rotates to drive the propeller a1-31 to rotate through the connecting rotating column 1-30, the propeller a1-31 can adsorb garbage generated when the steel wire cuts the plate material to the lower part of the equipment when rotating, the cutting function is further assisted, the equipment can transversely transmit the plate material assisted cutting function when the steel wire transversely moves, the connecting shaft III 3-3 is driven to rotate through the friction wheel I3-1 and the friction wheel II 3-2 when the connecting shaft I2-4 rotates, the connecting shaft III 3-3 rotates to drive the connecting shaft IV 3-5 to rotate through the belt II 3-4, the connecting shaft IV 3-5 rotates to rotate the friction wheel III 3-6, the friction wheel III 3-6 rotates to drive the connecting shaft IV 3-8 to slide in a semicircular groove on the connecting plate i1-57 under the limitation of the limiting wheel I3-9 through the friction wheel IV 3-7, namely, the connecting shaft IV 3-5 can drive the friction wheel IV 3-10 at the upper side to rotate in the forward direction, the friction wheel IV 3-10 at the lower side can be driven to rotate in the reverse direction, the friction wheel IV 3-10 can drive the connecting shaft VI 3-11 to rotate, the connecting shaft VI 3-11 can drive the connecting plates I3-16 and the connecting plates II 3-17 to move towards the center of the equipment through the forward rotation conveying wheels 3-12 and the forward rotation conveying plates 3-13 when rotating, the plates on the micropore conveying belts 1-67 can be driven towards the center of the equipment when the connecting plate II 3-17 moves, and similarly, the connecting plate V3-20 can also drive the plates towards the center of the equipment under the action of the reverse rotation conveying wheels 3-14 and the reverse rotation conveying plates 3-15.

It is to be understood that the above description is not intended to limit the present invention, and the present invention is not limited to the above examples, and that various changes, modifications, additions and substitutions which are within the spirit and scope of the present invention and which may be made by those skilled in the art are also within the scope of the present invention.

Claims

1. The utility model provides a new material processing is with panel wire-electrode cutting equipment, includes cutting link gear (1), line of cut lateral shifting mechanism (2), panel lateral shifting mechanism (3), its characterized in that: the cutting linkage mechanism (1) is connected with the cutting line transverse moving mechanism (2), the cutting line transverse moving mechanism (2) is connected with the plate transverse mechanism (3), and the plate transverse mechanism (3) is connected with the cutting linkage mechanism (1).

2. The plate wire-cutting device for new material processing according to claim 1, wherein: the cutting linkage mechanism (1) comprises a motor a (1-1), a motor shaft a (1-2), a belt a (1-3), a connecting shaft a (1-4), a cam a (1-5), a steel wire (1-6), a winding column (1-7), a limiting plate a (1-8), a torsion spring (1-9), a connecting shaft b (1-10), a connecting plate a (1-11), a connecting plate b (1-12), friction wheels a (1-13), a connecting shaft c (1-14), a belt b (1-15), a connecting shaft d (1-16), an external thread friction wheel (1-17), a brake plate (1-18), a sliding block a (1-19), a connecting plate l (1-20), a T-shaped sliding block (1-21), The device comprises sliding rails (1-22), belts c (1-23), connecting shafts e (1-24), friction wheels b (1-25), connecting shafts f (1-26), connecting plates c (1-27), belts d (1-28), friction wheels c (1-29), connecting rotating columns (1-30), propellers a (1-31), belts e (1-32), connecting shafts g (1-33), friction wheels d (1-34), connecting shafts h (1-35), propellers b (1-36), switching sliders (1-37), switching sliding rails (1-38), springs a (1-39), connecting shafts h (1-40), connecting plates d (1-41), connecting plates e (1-42), connecting shafts i (1-43), The special-shaped friction wheel comprises special-shaped friction wheels (1-44), friction wheels e (1-45), connecting shafts j (1-46), connecting plates f (1-47), belts f (1-48), connecting shafts k (1-49), friction wheels f (1-50), friction wheels g (1-51), connecting shafts l (1-52), connecting plates g (1-53), belts g (1-54), connecting shafts m (1-55), connecting plates h (1-56), connecting plates i (1-57), connecting plates j (1-58), belts h (1-59), connecting shafts n (1-60), connecting plates k (1-61), friction wheels h (1-62), connecting shafts o (1-63), belts i (1-64), connecting shafts p (1-65), The device comprises conveying columns (1-66), a micropore conveyor belt (1-67), conveyor belt limiting plates (1-68) and connecting plates l (1-69), wherein a motor a (1-1) is connected with a motor shaft a (1-2), the motor a (1-1) is connected with connecting plates i (1-57), the motor shaft a (1-2) is in friction connection with a belt a (1-3), the belt a (1-3) is in friction connection with a connecting shaft a (1-4), the connecting shaft a (1-4) is connected with a cam a (1-5), the connecting shaft a (1-4) is in bearing connection with the connecting plates l (1-20), two ends of a steel wire (1-6) are wound on the winding columns (1-7) and connected with the limiting plates a (1-8), the steel wire (1-6) is in sliding connection with sliding blocks a (1-19), the steel wire (1-6) is connected with the connecting plate l (1-20) in a sliding way, the steel wire (1-6) is connected with the T-shaped sliding block (1-21) in a sliding way, the winding post (1-7) is connected with the limiting plate a (1-8), the winding post (1-7) is connected with the connecting shaft b (1-10), the winding post (1-7) is connected with the friction wheel a (1-13) in a friction way, the initial torsion force of the torsion spring (1-9) at the upper side is slightly larger than that of the torsion spring (1-9) at the lower side, the torsion spring (1-9) at the upper side is sleeved on the connecting shaft b (1-10) and is limited on the winding post (1-7) and the connecting plate a (1-11), the torsion spring (1-9) at the lower side is sleeved on the connecting shaft b (1-10) and is limited on the winding post (, the connecting shaft b (1-10) at the upper side is connected with two connecting plates a (1-11) through bearings, the connecting shaft b (1-10) at the lower side is connected with two connecting plates b (1-12) through bearings, the connecting plates a (1-11) are connected with connecting plates h (1-56) at the upper side, the connecting plates b (1-12) are connected with connecting plates h (1-56) at the lower side, friction wheels a (1-13) are connected with connecting shafts c (1-14), the connecting shafts c (1-14) are connected with belts b (1-15) through friction, the connecting shafts c (1-14) are connected with the connecting plates a (1-11) through bearings, the belts b (1-15) are connected with connecting shafts d (1-16) through friction, the connecting shafts d (1-16) are connected with external thread friction wheels (1-17), connecting shafts d (1-16) are in bearing connection with connecting plates l (1-69), external thread friction wheels (1-17) are in friction connection with brake plates (1-18), the brake plates (1-18) are in sliding connection with connecting plates h (1-56), sliding blocks a (1-19) are in sliding connection with the connecting plates h (1-56), connecting plates l (1-20) are connected with the connecting plates h (1-56), T-shaped sliding blocks (1-21) are in sliding connection with sliding rails (1-22), the sliding rails (1-22) are connected with the connecting plates h (1-56), one ends of belts c (1-23) are in friction connection with the connecting shafts a (1-4), the other ends of the belts c (1-23) are in friction connection with connecting shafts e (1-24), the connecting shafts e (1-24) are in friction connection with the connecting plates i (1-57), the belt c (1-23) is in friction connection with the friction wheel b (1-25), the belt c (1-23) is in friction connection with the friction wheel e (1-45), the friction wheel b (1-25) is connected with the connecting shaft f (1-26), the connecting shaft f (1-26) is in bearing connection with the connecting plate c (1-27), the connecting shaft f (1-26) is in bearing connection with the connecting plate i (1-57), the connecting plate c (1-27) is connected with the connecting plate i (1-57), the belt d (1-28) is in friction connection with the two connecting shafts f (1-26), the belt d (1-28) is in friction connection with the friction wheel c (1-29), the friction wheel c (1-29) is connected with the connecting rotating column (1-30), the connecting rotating column (1-30) is connected with the propeller a (1-31), one end of a belt e (1-32) is in friction connection with a connecting shaft e (1-24), the other end of the belt e (1-32) is in friction connection with a connecting shaft g (1-33), the belt e (1-32) is in friction connection with a friction wheel d (1-34), the connecting shaft g (1-33) is in bearing connection with a connecting plate i (1-57), the friction wheel d (1-34) is connected with a connecting shaft h (1-35), the connecting shaft h (1-35) is connected with a propeller b (1-36), the connecting shaft h (1-35) is in bearing connection with a connecting plate h (1-56), a switching slide block (1-37) is in sliding connection with a switching slide rail (1-38), the switching slide block (1-37) is connected with the connecting shaft h (1-40), and the switching slide block (1-37) is connected with a connecting shaft i (1-, the switching slide rails (1-38) are connected with connecting plates h (1-56), springs a (1-39) are sleeved on connecting shafts h (1-40) and limited on switching slide blocks (1-37) and connecting plates e (1-42), the connecting shafts h (1-40) are connected with connecting plates d (1-41), the connecting shafts h (1-40) are connected with the connecting plates e (1-42) in a sliding manner, the connecting plates e (1-42) are connected with the connecting plates h (1-56), connecting shafts i (1-43) are connected with special-shaped friction wheels (1-44), the friction wheels e (1-45) are connected with connecting shafts j (1-46), the connecting shafts j (1-46) are connected with the connecting plates f (1-47) in a sliding manner, and the connecting shafts j (1-46) are connected with belts f (1-48) in a friction manner, the connecting plates f (1-47) are in bearing connection with connecting shafts k (1-49), the connecting plates f (1-47) are connected with connecting plates h (1-56), the belts f (1-48) are in friction connection with the connecting shafts k (1-49), the connecting shafts k (1-49) are connected with friction wheels f (1-50), the friction wheels g (1-51) are connected with connecting shafts l (1-52), the connecting shafts l (1-52) are in bearing connection with connecting plates g (1-53), the connecting shafts l (1-52) are in friction connection with belts g (1-54), the connecting plates g (1-53) are in bearing connection with connecting shafts m (1-55), the belts g (1-54) are in bearing connection with connecting shafts m (1-55), the connecting plates h (1-56) are connected with connecting plates i (1-57), connecting plates i (1-57) are connected with connecting plates j (1-58), one ends of belts h (1-59) are in bearing connection with connecting shafts m (1-55), the other ends of the belts h (1-59) are in bearing connection with connecting shafts n (1-60), the belts h (1-59) are in friction connection with friction wheels h (1-62), the connecting shafts n (1-60) are in bearing connection with connecting plates k (1-61), the connecting plates k (1-61) are connected with connecting plates i (1-57), the friction wheels h (1-62) are connected with connecting shafts o (1-63), the connecting shafts o (1-63) are in bearing connection with the connecting plates i (1-57), one ends of the belts i (1-64) are in friction connection with the connecting shafts o (1-63), and the other ends of the belts i (1-64) are in friction connection with the connecting shafts p, the connecting shaft p (1-65) is connected with the conveying columns (1-66), the connecting shaft p (1-65) is connected with the connecting plate i (1-57) through a bearing, the conveying columns (1-66) are in friction connection with the micropore conveying belts (1-67), the conveying belts (1-67) are in friction connection with the conveying belt limiting plates (1-68), and the conveying belt limiting plates (1-68) are connected with the connecting plate i (1-57).

3. The plate wire-cutting device for new material processing according to claim 1, wherein: the cutting line transverse moving mechanism (2) comprises a motor b (2-1), a motor shaft b (2-2), a belt I (2-3), a connecting shaft I (2-4), a limiting plate I (2-5), a connecting shaft II (2-6), a spring I (2-7) and an internal thread sliding block (2-8), wherein the motor b (2-1) is connected with the motor shaft b (2-2), the motor b (2-1) is connected with a connecting plate i (1-57), the motor shaft b (2-2) is in friction connection with the belt I (2-3), the belt I (2-3) is in friction connection with the connecting shaft I (2-4), the connecting shaft I (2-4) is in sliding connection with the connecting plate I (1-20), the limiting plate I (2-5) close to the center of the equipment is connected with the connecting plate I (1-20), the other limiting plate I (2-5) is connected with the connecting plate I (1-20) in a sliding mode, the connecting shaft II (2-6) is connected with the limiting plate I (2-5) close to the center of the equipment in a sliding mode, the connecting shaft II (2-6) is connected with the other connecting plate I (1-20), the spring I (2-7) is sleeved on the connecting shaft II (2-6) and limited on the two limiting plates I (2-5), the internal thread sliding block (2-8) is connected with the sliding block a (1-19), and the internal thread sliding block (2-8) is connected with the connecting shaft I (2-4) in a threaded mode.

4. The plate wire-cutting device for new material processing according to claim 1, wherein: the plate transverse mechanism (3) comprises a first friction wheel (3-1), a second friction wheel (3-2), a third connecting shaft (3-3), a second belt (3-4), a fourth connecting shaft (3-5), a third friction wheel (3-6), a fourth friction wheel (3-7), a fifth connecting shaft (3-8), a first limiting wheel (3-9), a fourth friction wheel (3-10), a sixth connecting shaft (3-11), a forward rotating transmission wheel (3-12), a forward rotating transmission plate (3-13), a reverse rotating transmission wheel (3-14), a reverse rotating transmission plate (3-15), a first connecting plate (3-16), a second connecting plate (3-17), a third connecting plate (3-18), a fourth connecting plate (3-19), a fifth connecting plate (3-20), A connecting plate six (3-21) and a connecting plate seven (3-22), wherein the friction wheel I (3-1) is in friction connection with the friction wheel II (3-2), the friction wheel I (3-1) is connected with the connecting shaft I (2-4), the friction wheel II (3-2) is connected with the connecting shaft III (3-3), the connecting shaft III (3-3) is in friction connection with the belt II (3-4), the connecting shaft III (3-3) is in bearing connection with the connecting plate i (1-57), the belt II (3-4) is in friction connection with the connecting shaft IV (3-5), the connecting shaft IV (3-5) is connected with the friction wheel III (3-6), the connecting shaft IV (3-5) is in bearing connection with the connecting plate i (1-57), the friction wheel III (3-6) is in friction connection with the friction wheel IV (3-7), the friction wheel IV (3-7) is connected with the connecting shaft IV (3-8), the connecting shaft IV (3-8) is connected with the limiting wheel I (3-9), the connecting shaft IV (3-8) is connected with the connecting plate I (1-57) in a sliding way, the limiting wheel I (3-9) is connected with the connecting plate I (1-57) in a sliding way, the friction wheel IV (3-10) is connected with the connecting shaft IV (3-11), one connecting shaft IV (3-11) is connected with the forward rotating transmission wheel (3-12), the other connecting shaft IV (3-11) is connected with the reverse rotating transmission wheel (3-14), the forward rotating transmission wheel (3-12) is connected with the forward rotating transmission plate (3-13), and the forward rotating transmission plate (3-13) is connected with the connecting plate I (3-16), the reverse rotation transmission wheels (3-14) are connected with the reverse rotation transmission plates (3-15), the reverse rotation transmission plates (3-15) are connected with the connecting plate four (3-19), the connecting plate one (3-16) is connected with the connecting plate two (3-17), the connecting plate one (3-16) is connected with the connecting plate three (3-18) in a sliding way, the connecting plate two (3-17) is connected with the micropore transmission belt (1-67) in a sliding way, the connecting plate three (3-18) is connected with the connecting plate seven (3-22), the connecting plate four (3-19) is connected with the connecting plate five (3-20), the connecting plate four (3-19) is connected with the connecting plate six (3-21) in a sliding way, the connecting plate five (3-20) is connected with the micropore transmission belt (1-67) in a sliding way, the connecting plate six (3-21) is connected with the connecting plate seven (3-, the connecting plates seven (3-22) are connected with the connecting plates i (1-57).