CN115319181B - Steel plate slitting and winding device with scratch blocking function - Google Patents

Abstract

The utility model discloses a steel plate slitting and winding device with scratch blocking function, which belongs to the technical field of metal processing, and comprises a slitting machine tool, wherein a bearing slideway is arranged on the slitting machine tool, a plurality of clamping nozzles are arranged on the bearing slideway, the bearing slideway is in sliding connection with the slitting machine tool, a slitting cross beam is arranged on the slitting cross beam, a plurality of slitting cutters are arranged on the slitting cross beam, each slitting cutter is in rotary connection with the slitting cross beam, a plurality of winding tracks are arranged on one side of the slitting cross beam, a winding roller group is arranged on each winding track, the winding roller group is in rotary connection with the winding tracks, a winding motor is arranged in each winding track, a winding assembly is arranged at the output end of the winding motor, a protective cover is arranged on the slitting machine tool, and a deslagging cooling box is arranged on the slitting machine tool.

Description

Steel plate slitting and winding device with scratch blocking function

Technical Field

The utility model relates to the technical field of metal processing, in particular to a steel plate slitting and winding device with scratch blocking function.

Background

Some steel coils are whole steel plates before delivery, and the products cannot be directly used and need further processing and treatment, such as cutting, rolling, stretching, milling and the like, the steel plates are further processed before delivery, and some factories need to cut and wind the steel plates before delivery, so that the products can be delivered qualified, the rolled steel plates are easier to store and easier to transport, and the problems of random collision of the steel plates and mutual scratch between the steel plates in the transportation process are avoided.

There are also various steel sheet handling devices on the market, for example, chinese patent application discloses a winding slitter. The winding and slitting machine comprises a slitting mechanism, a material guide cross beam and a winding mechanism, wherein the material guide cross beam is arranged on the slitting mechanism and on two sides of the winding mechanism, the winding mechanism comprises a winding bracket, a winding shaft, a winding motor, a winding roller body and a winding material guide rod, the winding shaft is arranged on the winding bracket, the winding motor is connected with the winding shaft, the winding roller body is arranged on the winding shaft, the number of the winding material guide rods is multiple, the plurality of the winding material guide rods are arranged on the winding roller body, and the material web on the winding mechanism is guided into the slitting mechanism for slitting by the winding machine, so that the cloth guide is smooth, the slitting effect is good, waste generated in the cutting process can be found to scratch the surface of a steel plate, and simultaneously, a workpiece after the cutting is finished is easy to rebound phenomenon, so that the workpiece is required to be processed again in the later stage, and is labor-consuming.

Disclosure of Invention

The utility model provides a steel plate slitting and winding device with a scratch blocking function, which can effectively solve the problems in the background technology.

In order to achieve the above purpose, the present utility model provides the following technical solutions:

this cut coiling device includes cutting machine tool, be provided with on the cutting machine tool and bear the weight of the slide, bear and be provided with a plurality of clamping mouth on the slide, bear slide and cut lathe sliding connection, be provided with on the cutting machine tool and cut the crossbeam, be provided with a plurality of cutter on the crossbeam and cut crossbeam swivelling joint, it is provided with a plurality of around rolling up the track to cut crossbeam one side, be provided with around rolling up roller group on every around rolling up the track, around rolling up roller group and around rolling up track swivelling joint, be provided with the winding motor in every around rolling up the track, winding motor output is provided with and beats a roll subassembly, be provided with the protection casing on the cutting machine tool, be provided with the deslagging cooling case on the cutting machine tool, deslagging cooling case is located and cuts the crossbeam top and need to process in, carry the steel sheet in the slide, carry the steel sheet by bearing the slide, clamp mouth presss from both sides the steel sheet, cut the cutter cuts the steel sheet on the crossbeam, cut steel sheet will be sent into around rolling up the track by cutting cutter on the crossbeam, it will be sent into around rolling up in the rolling up the track to roll up roller group, around rolling up the roller group with beat a roll up the subassembly and will provide power for rolling up the roller group, be provided with the rolling up the protection casing and rolling up the operation, can be done and can not remove the cooling case and can produce the cooling case in order to remove the cutting chip in the process of rolling up the cutting chip in order to take off the cutting chip in the outside the protection casing and can also to remove the cooling case.

The cutting beam is internally provided with a cutting motor, the cutting motor is provided with a cutting transmission shaft, the cutting transmission shaft is provided with a locking sleeve, the locking sleeve is provided with cutting tools, the locking sleeve is in sliding connection with the cutting transmission shaft, the cutting transmission shaft is provided with a plurality of locking blocks, each locking block is in rotary connection with the cutting transmission shaft, the cutting transmission shaft is internally provided with a locking shaft, the locking shaft is meshed with each locking block through teeth, the locking shaft is in sliding connection with the cutting transmission shaft, an inner arm of the locking sleeve is provided with a fixed groove, the locking blocks are embedded in the fixed groove, the cutting motor drives the cutting transmission shaft to rotate, the cutting transmission shaft drives the locking sleeve to rotate, the cutting tools rotate, the rotating cutting tools can cut steel plates, the positions of the locking sleeve can be adjusted when the widths of steel plates need to be adjusted, the locking sleeve slides on the cutting transmission shaft, meanwhile, when the positions of the locking sleeve need to be fixed, the locking shaft is adjusted, the locking blocks can be embedded into the locking grooves in the locking sleeve, and the locking blocks can lock the locking sleeve, so that the locking sleeve can be locked, and the width of the steel plates can be controlled.

The locking sleeve is provided with a locking groove, the slitting cutter is embedded into the locking groove and is fixedly connected through a screw, the slitting cross beam is provided with a slag removing plate, the slag removing plate is located above the slitting cutter, the slag removing plate is provided with a plurality of water spray guns, the water spray guns are connected with a water tank through water spray hoses, the bottom end of the slitting machine tool is provided with a water outlet, the water outlet is provided with a turning wheel, the turning wheel is rotatably connected with the water outlet, one side of the slitting cross beam, close to a bearing slide way, is provided with a shockproof assembly, the shockproof assembly is fixedly connected with the slitting cross beam, the locking sleeve provides a proper installation position for the slitting cutter, and meanwhile, the slitting cutter can be fixed through a detachable screw so as to facilitate the detachment and installation of the slitting cutter. Finally, the water outlet is discharged out of the slitting machine tool, and in the discharging process, the overturning wheel can rotate continuously due to gravity, so that the problem of water outlet blockage can be effectively avoided through the structural design.

The shockproof assembly comprises a shockproof block fixedly connected with the slitting beam, an outlet of the shockproof block is close to the deslagging cooling box, a shockproof slider is arranged on the shockproof block and is in sliding connection with the shockproof block, a shockproof spring is arranged between the shockproof slider and the shockproof block, two ends of the shockproof spring respectively prop against the shockproof block and the shockproof slider, a rotary roller is arranged on the shockproof slider and is in rotary connection with the shockproof slider, a shockproof gear is arranged in the shockproof block and is in rotary connection with the shockproof block, the shockproof slider is meshed with the shockproof gear, a shockproof slider is arranged on one side of the shockproof gear away from the shockproof slider and is meshed with the shockproof gear, the shockproof slider is in sliding connection with the shockproof block, the shockproof slider and the shockproof slider are in parallel arrangement, the shockproof roller is arranged on the shockproof slider and is in rotary connection with the shockproof slider, in the cutting process, the steel plate can be stuck to the rotary idler wheel on the shockproof slide block, so that the shockproof slide block slides in the direction of the shockproof block, meanwhile, the shockproof spring can prop against the shockproof slide block, thereby forming a primary steel plate shockproof effect, the light vibration problem in the re-cutting process can be avoided, when the vibration amplitude of the steel plate is large, the shockproof slide block can drive the shockproof gear to rotate, the shockproof gear rotates to drive the shockproof slide block to ascend, the shockproof idler wheel on the shockproof slide block props against the steel plate, meanwhile, the shockproof idler wheel has certain elasticity, and the shockproof slide block and the shockproof gear are matched, so that the vibration frequency and amplitude opposite to the vibration of the steel plate are generated on the shockproof slide block, and the problem that the steel plate falls off or is cut and bent due to the overlarge vibration amplitude is avoided.

The winding roller group comprises a rotating main shaft and a rotating auxiliary shaft, the rotating main shaft is rotationally connected with the rotating auxiliary shaft and the winding track, a feeding port of the winding track is located on the same horizontal plane with a plane where a slitting beam is located, the winding component comprises a bending roller, the bending roller is connected with an output end of a winding motor, the rotating main shaft, the rotating auxiliary shaft and the bending roller are arranged in parallel, the winding motor is slidingly connected with the winding track, a body part of the winding motor is fixedly connected with an output end of a variable-diameter hydraulic rod, the variable-diameter hydraulic rod is connected with the winding track, an anti-bullet box is arranged in the winding track, when a steel plate enters the winding track, the steel plate firstly passes through the rotating main shaft and the rotating auxiliary shaft, then the variable-diameter hydraulic rod is started, the length of the variable-diameter hydraulic rod is increased, then the winding motor is operated to drive the bending roller to rotate, so that a steel plate between the rotating main shaft and the rotating auxiliary shaft can be in a bending state, and under the action of a bearing slide way and the bending roller, the steel plate can be moved upstream of the rotating main shaft and finally in a spiral circle shape, in order to reduce the bending radius of the steel plate after bending, the steel plate can be stacked together, the variable-diameter hydraulic rod can be gradually shortened in the bending process, and the radius of the steel plate can be gradually increased.

The bullet-proof box is internally provided with a catching shaft, the catching shaft is arranged on the catching motor, the catching motor is arranged on the moving plate, the moving plate is in sliding connection with the bullet-proof box, the moving plates on adjacent bullet-proof boxes are connected through a linkage support, the linkage support is in sliding connection with the release shaft, the release shaft is arranged on a release hydraulic rod, the release hydraulic rod is arranged on a winding track, after the steel plate strip enters the bullet-proof box, the catching shaft catches the bent steel plate strip and then rotates in the bullet-proof box, after the steel plate strip completely enters the bullet-proof box, the catching motor drives the catching shaft to rotate at a high speed, the rotation direction of the catching motor is the same as the spiral direction of the steel plate strip, after the rotation is completed, the release hydraulic rod drives the release shaft to move, the linkage support also moves along with the movement of the moving plate, so that the steel plate roll on the bullet-proof box falls off, the linkage support has a contraction function and can adapt to the change of the winding track, the steel plate roll after the rotation is accelerated, the steel plate roll after the rotation is more compact, and rebound after the bending is avoided.

The bearing slide comprises a bearing motor, the bearing motor is arranged on a conveying shell, the conveying shell is fixedly connected with a slitting machine tool, a plane where a feeding hole and a discharging hole of the conveying shell are located and a plane where a slitting beam is located are the same plane, a conveying shaft and a conveying shaft are arranged on an output end of the bearing motor, the conveying shaft is connected with the conveying shaft through a conveying chain, a clamping nozzle is rotatably connected with the conveying chain, the clamping nozzle is in sliding contact with an opening wedge block on the slitting machine tool, when a steel plate is conveyed, the bearing motor drives the conveying shaft to rotate, the conveying shaft is driven by the conveying chain to rotate, the conveying chain drives the steel plate to move, and meanwhile, the clamping nozzle can buckle the steel plate to avoid sliding or dumping problems, and meanwhile when the clamping nozzle is close to the slitting beam, the clamping nozzle can be gradually opened, so that the steel plate is released, and the steel plate can smoothly enter the slitting beam.

The slag removal cooling box is fixedly connected with the slitting machine tool through the support, the slag removal cooling box is arranged above the slitting cross beam, the electrified magnetic disk is arranged in the slag removal cooling box and arranged at the output end of the adsorption motor, the electrified magnetic disk is arranged above the slag removal cooling box close to the slitting cross beam, the adsorption motor is arranged in the slag removal cooling box, a containing groove is formed in the slag removal cooling box, a impurity removal rubber strip is arranged on the containing groove and is in sliding contact with the electrified magnetic disk, the containing groove is rotationally connected with the slag removal cooling box, in the cutting process, the electrified magnetic disk is electrified, magnetic force is generated on the electrified magnetic disk, the generated magnetic force can adsorb splashed scraps generated during cutting, meanwhile, the electrified magnetic disk is driven to rotate by the adsorption motor, the impurity removal rubber strip can move away from the electrified magnetic disk, the scraps on the electrified magnetic disk can be removed in the containing groove under the action of the impurity removal rubber strip, the containing groove can store the scraps of the scraps, and when the cutting is finished, the containing groove only needs to be pushed to be rotated, and all the scraps can be discharged.

Be provided with the cooling tube on the cooling tank that removes the slag, the cooling tube is connected with the protection casing, be close to on the cooling tank that removes the slag and bear slide one side and be provided with the trachea, be provided with the filter on the trachea, filter and trachea sliding connection, the trachea passes through cooling tank that removes the slag and trachea intercommunication, be provided with the cooling motor in the cooling tank that removes the slag, be provided with the cooling flabellum on the cooling motor output, in cutting process, the cooling motor drives the cooling flabellum and rotates, make the gas flow remove the cooling tank that removes the slag, make enter into the sweeps residue on the cooling tank that removes the slag obtain abundant cooling, also will inhale the sweeps on the slitting cutter simultaneously, reduce the damage to the sweeps cutter, avoid simultaneously because remaining sweeps to the influence of cutting efficiency, also avoided the sweeps residue to the fish tail that causes of steel sheet.

Compared with the prior art, the utility model has the beneficial effects that: 1. the utility model adopts the vibration-removing component, can respond to the cutting of the steel plate, selects a specific vibration-removing mode according to the vibration amplitude and vibration frequency of the steel plate, and can effectively reduce the vibration generated during cutting by buffering type vibration reduction and vibration removal with opposite amplitude, thereby avoiding a large number of burrs and deviation of cutting angles of the steel plate due to vibration during cutting, and simultaneously avoiding damage to the winding component caused by the cut steel bar by matching with the structure of the winding track.

2. The utility model adopts the containing type winding assembly, the bullet-proof box is arranged in the winding assembly, the winding operation is carried out on the winding assembly in a bending mode, the winding radius of the winding assembly can be controlled by the three-shaft type winding assembly, the problem that the rolled steel bars cannot be rubbed with each other in the winding process is solved, the scratch to the steel bars is reduced, meanwhile, the steel coil wound by the inner bullet-proof box can be collected, the secondary fastening effect on the steel coil can be achieved by utilizing the high-speed rotation of the inner catching motor, and the problem that the steel coil bounces in the winding process is fully avoided.

3. The utility model adopts a water flushing type cooling mode, can fully reduce the influence of heat generated in the cutting process on the cutting process, and simultaneously adopts the air suction type impurity absorbing device, which can absorb and remove impurities adhered on the slitting cutter in the cleaning process, thereby avoiding the serious influence of the adhered impurities on the cutter on the cutting process in the cutting process, utilizing the air of the whole machine tool to circulate, reducing the influence of the heat attached to the absorbed impurities on the electrified magnetic disk and prolonging the service life of the electrified magnetic disk.

Drawings

The accompanying drawings are included to provide a further understanding of the utility model and are incorporated in and constitute a part of this specification, illustrate the utility model and together with the embodiments of the utility model, serve to explain the utility model. In the drawings:

FIG. 1 is a schematic three-dimensional structure of the present utility model;

FIG. 2 is a schematic view of the structure of the inside of the slitting machine of the present utility model;

FIG. 3 is a schematic view of the internal structure of the slitting beam of the present utility model;

FIG. 4 is a schematic view of a load-bearing slide structure of the present utility model;

FIG. 5 is a schematic view of the internal structure of the wrap track of the present utility model;

FIG. 6 is a schematic view of the structure of the winding assembly of the present utility model;

fig. 7 is a schematic view of the internal structure of the ballistic resistant cassette of the utility model;

FIG. 8 is a schematic view of the internal structure of the vibration isolation assembly of the present utility model;

FIG. 9 is a schematic diagram of the internal structure of the deslagging cooling box of the utility model;

reference numerals in the drawings: 1. cutting machine tools; 2. a bearing slideway; 201. carrying a motor; 202. a transport housing; 203. a transport shaft; 204. a conveying shaft; 205. a conveyor chain; 3. a clamping nozzle; 4. dividing and cutting the cross beam; 401. cutting a motor; 402. dividing and cutting a transmission shaft; 403. a locking sleeve; 405. a locking block; 406. a locking shaft; 407. a slag removing plate; 408. a water spraying gun; 409. a water spraying hose; 410. a water outlet; 411. turning wheels; 5. a slitting tool; 6. winding a rail; 7. a winding roller group; 701. rotating the main shaft; 702. rotating the auxiliary shaft; 8. a winding motor; 9. a rolling assembly; 901. bending a roller; 902. a reducing hydraulic rod; 903. an anti-bullet box; 904. a capture shaft; 905. capturing a motor; 906. a moving plate; 907. a linkage bracket; 908. a release shaft; 909. releasing the hydraulic rod; 10. a protective cover; 11. removing slag and cooling the box; 1101. electrifying a magnetic disk; 1102. an adsorption motor; 1103. a storage groove; 1104. removing impurities from the rubber strip; 1105. a cooling motor; 1106. cooling fan blades; 12. a shock assembly; 1201. a shock-proof block; 1202. a shockproof slide block; 1203. a shock-proof spring; 1204. rotating the roller; 1205. a shockproof gear; 1206. a shock-removing slide block; 1207. shockproof idler wheels; 13. a cooling pipe; 14. an air exchanging pipe; 15. and (5) a filter plate.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

Referring to fig. 1 to 9, the present utility model provides the following technical solutions:

the slitting and winding device comprises a slitting machine tool 1, wherein a bearing slide way 2 is arranged on the slitting machine tool 1, a plurality of clamping nozzles 3 are arranged on the bearing slide way 2, the bearing slide way 2 is in sliding connection with the slitting machine tool 1, a slitting cross beam 4 is arranged on the slitting machine tool 1, a plurality of slitting cutters 5 are arranged on the slitting cross beam 4, each slitting cutter 5 is in rotary connection with the slitting cross beam 4, a plurality of winding tracks 6 are arranged on one side of the slitting cross beam 4, a winding roller group 7 is arranged on each winding track 6, the winding roller group 7 is in rotary connection with the winding tracks 6, a winding motor 8 is arranged in each winding track 6, a winding assembly 9 is arranged at the output end of the winding motor 8, a protective cover 10 is arranged on the slitting machine tool 1, a deslagging cooling box 11 is arranged on the slitting machine tool 1, and when the deslagging cooling box 11 is positioned above the slitting cross beam 4 and is required to be processed, the steel plate is put into the bearing slide way 2, the steel plate is conveyed by the bearing slide way 2, the clamping nozzle 3 clamps the steel plate, the steel plate is conveyed to the slitting cross beam 4, the slitting tool 5 on the slitting cross beam 4 cuts the steel plate, the cut steel plate strip is conveyed into the winding track 6, the winding roller group 7 and the winding assembly 9 are used for winding, the winding motor 8 provides power for the winding operation, after the winding is finished, the winding track 6 discharges the finished steel plate roll out of the body, in the cutting and winding processes, the deslagging cooling box 11 can cool all workpieces in the protective cover 10, chips generated in the cutting process can be removed, and the protective cover 10 can not hurt operators for the steel plate which ensures that cutting scraps are deformed.

The cutting beam 4 is internally provided with a cutting motor 401, the cutting motor 401 is provided with a cutting transmission shaft 402, the cutting transmission shaft 402 is provided with a locking sleeve 403, the locking sleeve 403 is provided with a cutting tool 5, the locking sleeve 403 is in sliding connection with the cutting transmission shaft 402, the cutting transmission shaft 402 is provided with a plurality of locking blocks 405, each locking block 405 is in sliding connection with the cutting transmission shaft 402, the cutting transmission shaft 402 is internally provided with a locking shaft 406, the locking shaft 406 is meshed with each locking block 405 through teeth, the locking shaft 406 is in sliding connection with the cutting transmission shaft 402, an inner arm of the locking sleeve 403 is provided with a fixed groove, the locking blocks 405 are embedded in the fixed groove, the cutting motor 401 drives the transmission shaft 402 to rotate, the cutting transmission shaft 402 drives the locking sleeve 403 to rotate, the cutting tool 5 is driven to rotate, when the width of a steel plate is required to be adjusted, the locking sleeve 403 can be adjusted, the locking sleeve 403 slides on the cutting transmission shaft 402, when the position of the locking sleeve 403 is required to be fixed, the locking shaft 406 is adjusted, and the locking shaft 406 is enabled to be embedded in the locking sleeve 405, and the width of the cutting tool is controlled to be embedded in the locking sleeve 405.

The locking sleeve 403 is provided with a locking groove, the slitting cutter 5 is embedded in the locking groove and is fixedly connected through a screw, the slitting cross beam 4 is provided with a slag removing plate 407, the slag removing plate 407 is positioned above the slitting cutter 5, the slag removing plate 407 is provided with a plurality of water spraying guns 408, the water spraying guns 408 are connected with a water tank through water spraying hoses 409, the bottom end of the slitting machine 1 is provided with a water outlet 410, the water outlet 410 is provided with a turning wheel 411, the turning wheel 411 is rotatably connected with the water outlet 410, one side of the slitting cross beam 4, which is close to the bearing slideway 2, is provided with a shockproof assembly 12, the shockproof assembly 12 is fixedly connected with the slitting cross beam 4, the locking sleeve 403 provides a proper installation position for the slitting cutter 5, and meanwhile, the slitting cutter 5 can be fixed through a screw which can be detached, so that the slitting cutter 5 can be detached and installed, and the water spraying guns 408 on the slag removing plate 407 can spray water to operate the slitting part, and a large amount of residues can be discharged onto the slitting machine 1 along with water flow when the temperature is sufficiently lowered. Finally, the water outlet 410 is arranged to discharge the slitting machine 1, and in the discharging process, the turning wheel 411 can continuously rotate due to gravity, so that the problem of blockage of the water outlet 410 can be effectively avoided through the structural design.

The shockproof assembly 12 comprises a shockproof block 1201, the shockproof block 1201 is fixedly connected with the cutting beam 4, the outlet of the shockproof block 1201 is close to the deslagging cooling box 11, the shockproof block 1201 is provided with a shockproof slider 1202, the shockproof slider 1202 is in sliding connection with the shockproof block 1201, a shockproof spring 1203 is arranged between the shockproof slider 1202 and the shockproof block 1201, two ends of the shockproof spring 1203 respectively prop against the shockproof block 1201 and the shockproof slider 1202, a rotary roller 1204 is arranged on the shockproof slider 1202, the rotary roller 1204 is in rotary connection with the shockproof slider 1202, a shockproof gear 1205 is arranged in the shockproof block 1201, the shockproof gear 1205 is in rotary connection with the shockproof block 1201, the shockproof slider 1202 is meshed with the shockproof gear 1205, a shockproof removing slider 1206 is arranged on one side of the shockproof gear 1205 away from the shockproof slider 1202, the shockproof removing slider 1206 is meshed with the shockproof gear 1205, the shockproof removing slider 1206 is in sliding connection with the shockproof block 1201, the shockproof removing slider 1206 is in parallel arrangement with the shockproof slider 1202, the vibration-eliminating slide block 1206 is provided with a vibration-eliminating roller 1207, the vibration-eliminating roller 1207 is rotationally connected with the vibration-eliminating slide block 1206, in the cutting process, the rotating roller 1204 on the vibration-eliminating slide block 1202 is attached to the steel plate, so that the vibration-eliminating slide block 1202 slides in the direction of the vibration-eliminating block 1201, meanwhile, the vibration-eliminating spring 1203 is attached to the vibration-eliminating slide block 1202, thereby forming a primary vibration-eliminating effect of the steel plate, the problem of light vibration in the re-cutting process can be avoided, when the vibration amplitude of the steel plate is large, the vibration-eliminating slide block can drive the vibration-eliminating gear 1205 to rotate, the vibration-eliminating slide block 1206 is driven to ascend by the rotation of the vibration-eliminating gear 1205, the vibration-eliminating roller 1207 on the vibration-eliminating slide block 1206 is attached to the steel plate, meanwhile, the vibration-eliminating roller 1207 has a certain elasticity, and the vibration frequency and amplitude opposite to the vibration of the steel plate on the vibration-eliminating slide block 1206 are generated by the cooperation between the vibration-eliminating slide block 1202, the problem that the steel plate falls off or is cut and bent due to the overlarge vibration amplitude is avoided.

The winding roller group 7 comprises a rotating main shaft 701 and a rotating auxiliary shaft 702, the rotating main shaft 701 and the rotating auxiliary shaft 702 are in rotary connection with the winding track 6, a feeding port of the winding track 6 and a plane where the slitting cross beam 4 is located are located on the same horizontal plane, the winding assembly 9 comprises a bending roller 901, the bending roller 901 is connected with the output end of the winding motor 8, the rotating main shaft 701, the rotating auxiliary shaft 702 and the bending roller 901 are arranged in parallel, the winding motor 8 is in sliding connection with the winding track 6, a body part of the winding motor 8 is fixedly connected with the output end of a variable-diameter hydraulic rod 902, the variable-diameter hydraulic rod 902 is connected with the winding track 6, an anti-bullet box 903 is arranged in the winding track 6, when a steel plate enters the winding track 6, the rotating main shaft 701 and the rotating auxiliary shaft 702 are firstly passed through, then the variable-diameter hydraulic rod 902 is started, so that the length of the variable-diameter hydraulic rod 902 is increased, then the winding motor 8 is driven to rotate, and accordingly the steel plate between the rotating main shaft 701 and the rotating auxiliary shaft 702 can be in a bending state, the steel plate can be in a bending state under the action of bearing slide way 2 and the rolling roller 901, the steel plate can be in a final state of the rotating main shaft 701 and the rotating main shaft are in a spiral state, and the bending state can be gradually reduced, and the bending state can be stacked in the bending state after the steel plate can be in the bending state and the bending state can be gradually and the bending state can be reduced in the bending state and the bending state can be gradually and the bending state along the curve process can be gradually reduced.

The bullet-proof box 903 is internally provided with a catching shaft 904, the catching shaft 904 is arranged on a catching motor 905, the catching motor 905 is arranged on a moving plate 906, the moving plate 906 is in sliding connection with the bullet-proof box 903, the moving plate 906 on the adjacent bullet-proof box 903 is connected with the releasing shaft 908 through a linkage support 907, the releasing shaft 908 is arranged on a releasing hydraulic rod 909, the releasing hydraulic rod 909 is arranged on a winding track 6, when the steel plate strip enters the bullet-proof box 903, the catching shaft 904 catches the bent steel plate strip and then rotates in the bullet-proof box 903, when the steel plate strip completely enters the bullet-proof box 903, the catching motor 905 drives the catching shaft 904 to rotate at a high speed, the rotating direction is the same as the spiral direction of the steel plate strip, after the rotation is completed, the releasing hydraulic rod 909 drives the releasing shaft 908 to move, the linkage support 908 drives the linkage support 907 to move, and the moving plate 906 also moves along with the releasing hydraulic rod 909, so that the steel plate on the bullet-proof box 903 is wound down, the steel plate 907 has a function, and the winding track 6 can be adapted to change, after the steel plate strip is wound, the steel plate strip is wound tightly, and the rebound after the steel plate is prevented from bending after the steel plate strip is completely wound.

The bearing slide way 2 comprises a bearing motor 201, the bearing motor 201 is arranged on a conveying shell 202, the conveying shell 202 is fixedly connected with the slitting machine tool 1, a plane where a feeding port and a discharging port of the conveying shell 202 are located is the same plane as a plane where a slitting beam 4 is located, a conveying shaft 203 and a conveying shaft 204 are arranged at the output end of the bearing motor 201, the conveying shaft 203 is connected with the conveying shaft 204 through a conveying chain 205, a clamping nozzle 3 is rotatably connected with the conveying chain 205, the clamping nozzle 3 is in sliding contact with an opening wedge block on the slitting machine tool 1, when a steel plate is conveyed, the bearing motor 201 drives the conveying shaft 203 to rotate, the conveying shaft 203 drives the conveying shaft 204 to rotate through the conveying chain 205, the conveying chain drives the steel plate to move, meanwhile, the clamping nozzle 3 can buckle the steel plate so as to avoid sliding or tilting problems, and meanwhile when the clamping nozzle is close to the slitting beam 4, the clamping nozzle 3 is gradually opened, and the steel plate is smoothly fed onto the slitting beam 4.

The slag removal cooling box 11 is fixedly connected with the slitting machine tool 1 through a support, the slag removal cooling box 11 is arranged above the slitting cross beam 4, an electrified disk 1101 is arranged in the slag removal cooling box 11, the electrified disk 1101 is arranged at the output end of the adsorption motor 1102, the electrified disk 1101 is arranged above the slag removal cooling box 11 close to the slitting cross beam 4, the adsorption motor 1102 is arranged in the slag removal cooling box 11, a containing groove 1103 is formed in the slag removal cooling box 11, a impurity removal rubber strip 1104 is arranged on the containing groove 1103, the impurity removal rubber strip 1104 is in sliding contact with the electrified disk 1101, the containing groove 1103 is in rotary connection with the slag removal cooling box 11, in the cutting process, the electrified disk 1101 is electrified, magnetic force is generated on the electrified disk 1101, the generated magnetic force can absorb splashed scraps generated during cutting, the electrified disk 1101 is driven to rotate by the adsorption motor 1102, the electrified disk 1101 rotates, the impurity removal rubber strip 1104 can move away from the electrified disk 1101, scraps 1103 on the electrified disk 1101 can be removed under the action of the impurity removal rubber strip 1104, the scraps 1103 can be stored in the containing groove, and the residues can be completely cleaned by pushing the containing groove until the cutting is finished.

Be provided with cooling tube 13 on the cooling tank 11 that removes slag, cooling tube 13 is connected with protection casing 10, be close to on the cooling tank 11 that removes slag and bear slide 2 one side and be provided with the ventilation pipe 14, be provided with filter 15 on the ventilation pipe 14, filter 15 and ventilation pipe 14 sliding connection, ventilation pipe 14 is through removing slag cooling tank 11 and ventilation pipe 14 intercommunication, be provided with cooling motor 1105 in the cooling tank 11 that removes slag, be provided with cooling flabellum 1106 on the cooling motor 1105 output, in cutting process, cooling motor 1105 drives cooling flabellum 1106 and rotates, make gas flow remove slag cooling tank 11, make enter into the sweeps residue on the cooling tank 11 that removes slag obtain abundant cooling, also will absorb the sweeps on the slitting tool 5 simultaneously, reduce the damage to the sweeps cutter, avoid the influence of sweeps residue to cutting efficiency simultaneously, also avoided the sweeps residue to cause the fish tail to the steel sheet.

The working principle of the utility model is as follows: when the steel plate is required to be processed, firstly, the steel plate is placed in the bearing slide way 2, the cutting width of the steel plate is determined, the position of the locking sleeve 403 is adjusted, then the locking shaft 406 is pushed, the locking block 405 is fixed, the locking sleeve 403 is locked, the bearing motor 201 drives the conveying shaft 203 to rotate, the conveying chain 205 drives the conveying shaft 204 to rotate, the steel plate is conveyed, the clamping nozzle 3 clamps the steel plate, the steel plate is sent to the slitting beam 4, the slitting motor 401 starts to operate, the slitting transmission shaft 402 is driven, the slitting cutter 5 rotates along with the steel plate, the steel plate is slit, the cut steel plate strip is sent into the coiling track 6, the coiling motor 8 moves under the action of the reducing hydraulic rod 902 through the rotating main shaft 701 and the rotating auxiliary shaft 702, the coiling radius is controlled, along with the entering length of the steel plate strip, the reducing hydraulic rod 902 gradually shortens to gradually increase the rolling radius, so that the steel coil is formed more naturally, rolled steel strips enter the bulletproof box 903, the catching motor 905 in the bulletproof box 903 drives the steel coil on the catching shaft 904 to rotate, the rolling radius of the steel coil gradually reduces along with the increase of the rotating speed, after stopping rotating, the hydraulic rod 909 is released to move, the steel coil falls off from the catching shaft 904, the rolled steel plate coil is discharged out of the body through the rolling track 6, during the cutting and rolling processes, the deslagging cooling box 11 cools all workpieces in the protective cover 10, chips generated during the cutting process can be removed, the electrified magnetic disc 1101 also absorbs chip substances on the slitting cutter 5, and the water spray gun 408 not only has the cooling effect, it is also possible to flush out a large amount of debris generated during the cutting process.

It is noted that relational terms such as first and second, and the like are used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Moreover, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

Finally, it should be noted that: the foregoing description is only a preferred embodiment of the present utility model, and the present utility model is not limited thereto, but it is to be understood that modifications and equivalents of some of the technical features described in the foregoing embodiments may be made by those skilled in the art, although the present utility model has been described in detail with reference to the foregoing embodiments. Any modification, equivalent replacement, improvement, etc. made within the spirit and principle of the present utility model should be included in the protection scope of the present utility model.

Claims (7)

1. The utility model provides a take-up is cut to steel sheet that subsidiary fish tail blockked function, its characterized in that: the slitting and winding device comprises a slitting machine tool (1), wherein a bearing slide way (2) is arranged on the slitting machine tool (1), a plurality of clamping nozzles (3) are arranged on the bearing slide way (2), the bearing slide way (2) is in sliding connection with the slitting machine tool (1), a slitting cross beam (4) is arranged on the slitting machine tool (1), a plurality of slitting cutters (5) are arranged on the slitting cross beam (4), each slitting cutter (5) is in rotary connection with the slitting cross beam (4), a plurality of winding tracks (6) are arranged on one side of the slitting cross beam (4), a winding roller group (7) is arranged on each winding track (6), a winding motor (8) is arranged in each winding track (6), a winding component (9) is arranged at the output end of the winding motor (8), a slag removing box (11) is arranged on the slitting machine tool (1), and the slag removing box (11) is positioned above the slitting cross beam (4);

the winding roller group (7) comprises a rotating main shaft (701) and a rotating auxiliary shaft (702), the rotating main shaft (701) is rotationally connected with the rotating auxiliary shaft (702) and the winding track (6), a feeding hole of the winding track (6) is positioned on the same horizontal plane with a plane where the slitting cross beam (4) is positioned, the winding assembly (9) comprises a bending roller (901), the bending roller (901) is connected with the output end of the winding motor (8), the rotating main shaft (701), the rotating auxiliary shaft (702) and the bending roller (901) are arranged in parallel, the winding motor (8) is in sliding connection with the winding track (6), the body part of the winding motor (8) is fixedly connected with the output end of the reducing hydraulic rod (902), the reducing hydraulic rod (902) is connected with the winding track (6), and an anti-bullet box (903) is arranged in the winding track (6);

be provided with in bulletproof box (903) and catch axle (904), catch and set up on catching motor (905) on axle (904), catch motor (905) set up on movable piece (906), movable piece (906) and bulletproof box (903) sliding connection, adjacent movable piece (906) on bulletproof box (903) are connected through linking support (907), linking support (907) and release axle (908) sliding connection, release axle (908) set up on release hydraulic stem (909), release hydraulic stem (909) set up on winding track (6).

2. The steel plate slitting and winding device with scratch blocking function as set forth in claim 1, wherein: be provided with in cutting crossbeam (4) and cut motor (401), be provided with on cutting motor (401) and cut transmission shaft (402), be provided with on cutting transmission shaft (402) locking cover (403), be provided with on locking cover (403) and cut cutter (5), locking cover (403) and cut transmission shaft (402) sliding connection, be provided with a plurality of locking piece (405) on cutting transmission shaft (402), every locking piece (405) and cut transmission shaft (402) swivelling joint, be provided with locking axle (406) in cutting transmission shaft (402), locking axle (406) and every locking piece (405) pass through tooth meshing, locking axle (406) and cut transmission shaft (402) sliding connection, locking cover (403) inner arm is provided with the fixed slot, locking piece (405) embedding fixed slot.

3. The steel plate slitting and winding device with scratch blocking function as set forth in claim 2, wherein: the utility model discloses a cutting machine is characterized in that a locking groove is formed in a locking sleeve (403), a cutting tool (5) is embedded in the locking groove and is fixedly connected through a screw, a slag removing plate (407) is arranged on a cutting beam (4), the slag removing plate (407) is located above the cutting tool (5), a plurality of water spraying guns (408) are arranged on the slag removing plate (407), the water spraying guns (408) are connected with a water tank through water spraying hoses (409), a water outlet (410) is formed in the bottom end of the cutting machine tool (1), a turning wheel (411) is arranged on the water outlet (410), the turning wheel (411) is rotatably connected with the water outlet (410), a shockproof component (12) is arranged on one side, close to a bearing slide rail (2), of the cutting beam (4), and the shockproof component (12) is fixedly connected with the cutting beam (4).

4. A steel sheet slitting and winding device with scratch blocking function as set forth in claim 3, wherein: the vibration-proof component (12) comprises a vibration-proof block (1201), the vibration-proof block (1201) is fixedly connected with a slitting beam (4), an outlet of the vibration-proof block (1201) is close to a deslagging cooling box (11), a vibration-proof sliding block (1202) is arranged on the vibration-proof block (1201), the vibration-proof sliding block (1202) is in sliding connection with the vibration-proof block (1201), a vibration-proof spring (1203) is arranged between the vibration-proof sliding block (1202) and the vibration-proof block (1201), two ends of the vibration-proof spring (1203) respectively prop against the vibration-proof block (1201) and the vibration-proof sliding block (1202), a rotary roller (1204) is arranged on the vibration-proof sliding block (1202), a vibration-proof gear (1205) is arranged in the vibration-proof sliding block (1201), the vibration-proof gear (1205) is in rotary connection with the vibration-proof sliding block (1202), the vibration-proof sliding block (1206) is meshed with the vibration-proof gear (1205), one side of the vibration-proof sliding block (1202) is provided with a vibration-proof sliding block (1206), the vibration-proof sliding block (1206) is meshed with the vibration-proof sliding block (1205), the vibration-proof sliding block (1206) is arranged in parallel to the vibration-proof sliding block (1202), the shockproof roller (1207) is rotationally connected with the shock-removing sliding block (1206).

5. The steel plate slitting and winding device with scratch blocking function as set forth in claim 1, wherein: the bearing slide way (2) comprises a bearing motor (201), the bearing motor (201) is arranged on a conveying shell (202), the conveying shell (202) is fixedly connected with a slitting machine tool (1), the plane of a feeding hole and a discharging hole of the conveying shell (202) is the same as the plane of a slitting cross beam (4), a conveying shaft (203) and a conveying shaft (204) are arranged at the output end of the bearing motor (201), the conveying shaft (203) is connected with the conveying shaft (204) through a conveying chain (205), a clamping nozzle (3) is in rotary connection with the conveying chain (205), and the clamping nozzle (3) is in sliding contact with an opening wedge block on the slitting machine tool (1).

6. The steel plate slitting and winding device with scratch blocking function as set forth in claim 5, wherein: the slag removing and cooling box (11) is fixedly connected with the slitting machine tool (1) through a bracket, the slag removing and cooling box (11) is arranged above the slitting cross beam (4), an electrified magnetic disk (1101) is arranged in the slag removing and cooling box (11), the electrified magnetic disk (1101) is arranged at the output end of the adsorption motor (1102), the electrified magnetic disk (1101) is arranged above the slag removing and cooling box (11) which is close to the slitting cross beam (4), the adsorption motor (1102) is arranged in the deslagging cooling box (11), a storage groove (1103) is formed in the deslagging cooling box (11), an impurity-removing rubber strip (1104) is arranged on the storage groove (1103), the impurity-removing rubber strip (1104) is in sliding contact with the electrified magnetic disc (1101), and the storage groove (1103) is rotationally connected with the deslagging cooling box (11).

7. The steel plate slitting and winding device with scratch blocking function as set forth in claim 6, wherein: be provided with cooling tube (13) on removing slag cooling case (11), cooling tube (13) are connected with protection casing (10), be close to on removing slag cooling case (11) and bear slide (2) one side and be provided with ventilation tube (14), be provided with filter (15) on ventilation tube (14), filter (15) and ventilation tube (14) sliding connection, ventilation tube (14) are through removing slag cooling case (11) and ventilation tube (14) intercommunication, be provided with cooling motor (1105) in removing slag cooling case (11), be provided with cooling flabellum (1106) on cooling motor (1105) output.