CN218931241U - Full-automatic slitting machine - Google Patents

Abstract

The utility model discloses a full-automatic slitting machine which comprises a feeding mechanism, a slitting mechanism and a receiving mechanism. The feeding mechanism is used for conveying the whole roll of strip forwards, an automatic feeding vehicle is used for driving the heavier strip during feeding, manual carrying is not needed, meanwhile, the removed lining paper is rolled up, disordered arrangement is prevented, and bad materials can be rolled up after being wound up; the die shaft for leveling can be independently disassembled and replaced on the slitting mechanism, so that different strip leveling requirements are met, complicated steps of integral adjustment are saved, and the operation is simple and easy to understand; the material receiving mechanism can tighten the material receiving shaft through the tightening cylinder, can tighten the material receiving shaft through the tightening hydraulic cylinder, is driven by double stations, increases the fitness, and simultaneously compresses the material pressing arm to store the strip, so that the wound strip is ensured to be neat.

Description

Full-automatic slitting machine

Technical Field

The utility model relates to the technical field of slitting machines, in particular to a full-automatic slitting machine.

Background

The slitting machine is mainly used for slitting thicker copper coiled strips into strips according to requirements, and aims to split the thicker copper coiled strips into a plurality of narrow-side copper coiled strips, and the thicker copper coiled strips can be wound into rolls after slitting. The feeding of the existing slitting machine is manually operated, the original strip is heavy, and a large amount of manpower resources can be consumed; when in slitting, the linkage among the multi-mode shafts causes inconvenience in the disassembly and replacement of a single die shaft; and during subsequent material collection, the winding effect of the material collection is also influenced by the fixing mode of the material collection shaft.

Disclosure of Invention

One object of the present utility model is to: the full-automatic slitting machine is used for solving the problems existing in the prior art.

To achieve the purpose, the utility model adopts the following technical scheme:

a full-automatic slitting machine, which comprises a feeding mechanism, a slitting mechanism and a receiving mechanism,

the feeding mechanism comprises a material frame, a material cylinder, a hydraulic module, a feeding vehicle and a defective material rolling cylinder, wherein the tail end of the hydraulic module is connected to one side of the material frame, the feeding vehicle is fixed to the driving end of the hydraulic module, wheels are arranged on two sides of the feeding vehicle, wheel paths are arranged on two sides of the hydraulic module, the wheels roll in the wheel paths, a feeding driving device is fixed on the feeding vehicle, the material cylinder rotates on the material frame, a defective material rolling motor is arranged on the front side of the material frame, the defective material rolling cylinder is rotationally connected to the material frame, the driving end of the defective material rolling motor is in transmission connection with the defective material rolling cylinder, a lining paper rolling motor and a lining paper rolling shaft are further arranged at the front end of the material frame, and the lining paper rolling shaft is rotationally connected to the material frame, and a belt between the lining paper rolling shaft and the driving end of the lining paper rolling motor is in transmission connection;

the slitting mechanism comprises a slitting frame, slitting cutter shafts, a leveling support, a front die shaft and a rear die shaft, wherein the slitting cutter shafts are rotationally connected to the slitting frame, an upper cutter shaft is movably arranged on the slitting frame along the vertical direction, an cutter shaft adjusting hand wheel is connected to the upper part of the upper cutter shaft, the upper cutter shaft is positioned right above the slitting cutter shafts, the leveling support is connected to the front end of the slitting frame, leveling shafts are respectively arranged at the front end of the leveling support and the rear end of the leveling support, the front die shaft and the rear die shaft are respectively arranged between the two leveling shafts, one end of the front die shaft is connected with a first mounting gear shaft, one end of the rear die shaft is connected with a second mounting gear shaft, and the first mounting gear shaft and the second mounting gear shaft are respectively and spirally connected to the leveling support;

the material collecting mechanism comprises a material collecting rack, a material collecting shaft, a tightening cylinder, a tightening hydraulic cylinder, a tightening plate seat, a material pressing seat and a material pressing arm, wherein the tightening plate seat is positioned on one side of the material collecting rack, a material collecting bearing is arranged on the tightening plate seat, one end of the material collecting shaft is connected with the material collecting bearing, a material collecting nut is locked at the other end of the material collecting shaft, the tightening cylinder and the tightening hydraulic cylinder are fixedly arranged on the material collecting rack, the driving end of the tightening cylinder is connected with the side edge of the tightening plate seat, the driving end of the tightening hydraulic cylinder is connected with the middle part of the tightening plate seat, a material pressing cylinder is further arranged on the material collecting rack, the middle part of the material pressing arm is rotationally connected with the material pressing seat, the rear end of the material pressing arm is hinged to the driving end of the material pressing cylinder, and the front end of the material pressing arm is pressed on a belt material.

As an optimized technical scheme, a conveying motor is arranged on the material frame, a driving conveying wheel is arranged at the driving end of the conveying motor, a first driven wheel is arranged on the material cylinder, and the driving conveying wheel is in belt transmission connection with the driving conveying wheel.

As a preferable technical scheme, an auxiliary shaft bracket is further arranged at the front end of the material bracket, a second driven wheel is arranged on the material cylinder, and the auxiliary shaft bracket is connected with the second driven wheel through a belt in a transmission manner.

As a preferable technical scheme, a feeding fixing seat is arranged below the material frame, and the material frame is connected with the feeding fixing seat in a sliding manner along the horizontal direction.

As an optimized technical scheme, one side of the leveling bracket is also provided with a mounting hand wheel and a locking spanner, the locking spanner is connected with a locking shaft, and the locking shaft penetrates through the mounting hand wheel to be fixed.

As a preferable technical scheme, the front of the leveling bracket is provided with a feeding guide table, the feeding guide table is provided with a feeding guide roller, the feeding guide table is provided with a guide adjustment groove along the vertical direction, and the end part of the feeding guide roller is fixed in the guide adjustment groove.

As an optimized technical scheme, a slitting motor and a slitting auxiliary shaft are arranged on the slitting rack, the driving end of the slitting motor is in transmission connection with one end of the slitting auxiliary shaft through a belt wheel and a belt, a slitting driving wheel is arranged on the slitting auxiliary shaft, a slitting driven wheel is arranged on the slitting cutter shaft, and the slitting driving wheel is in transmission connection with the slitting driven wheel.

As a preferable technical scheme, a first guide arm and a second guide arm are arranged on the material receiving rack, one end of the first guide arm is hinged with the material pressing seat, the other end of the first guide arm is hinged with one end of the second guide arm, the middle part of the second guide arm is hinged with the material pressing arm, and the other end of the second guide arm is pressed on the strip.

As a preferable technical scheme, a material receiving motor is arranged on the material receiving rack, and the driving end of the material receiving motor is in transmission connection with the material receiving shaft.

As a preferable technical scheme, an auxiliary shaft is further installed on the material receiving rack, the material receiving motor is in transmission connection with the auxiliary shaft through a belt and a material receiving synchronous wheel, a material receiving driving wheel is installed on the auxiliary shaft, a material receiving driven wheel is installed on the material receiving shaft, and the material receiving driving wheel is in transmission connection with the material receiving driven wheel.

The beneficial effects of the utility model are as follows:

1. the feeding mechanism is used for conveying the whole roll of strip forwards, the heavier strip is driven by an automatic feeding vehicle during feeding, manual conveying is not needed, meanwhile, the removed lining paper is rolled up, disordered arrangement is prevented, and bad materials can be rolled up after being wound up;

2. the die shaft for leveling can be independently disassembled and replaced on the slitting mechanism, so that different strip leveling requirements are met, complicated steps of integral adjustment are saved, and the operation is simple and easy to understand;

3. the material receiving mechanism can tighten the material receiving shaft through the tightening cylinder, can tighten the material receiving shaft through the tightening hydraulic cylinder, is driven by double stations, increases the fitness, and simultaneously compresses the material pressing arm to store the strip, so that the wound strip is ensured to be neat.

Drawings

The utility model is described in further detail below with reference to the drawings and examples.

Fig. 1 is a schematic overall structure of a full-automatic slitting machine according to an embodiment;

fig. 2 is a schematic top view of a feeding mechanism according to an embodiment;

fig. 3 is a schematic side view of a feeding mechanism according to an embodiment;

FIG. 4 is a schematic top view of a slitting mechanism according to an embodiment;

FIG. 5 is a schematic side view of a slitting mechanism according to an embodiment;

FIG. 6 is a schematic top view of a planing support according to an embodiment;

fig. 7 is a schematic top view of a receiving mechanism according to an embodiment;

fig. 8 is a schematic side view of a receiving frame according to an embodiment;

fig. 9 is a schematic top view of a receiving frame according to an embodiment.

In fig. 1 to 9:

1. a feeding mechanism; 101. a material rack; 102. a material cylinder; 103. a hydraulic module; 104. feeding vehicle; 105. a feeding oil pressure station; 106. a defective material rolling cylinder; 107. a wheel; 108. a wheel path; 109. a feeding driving device; 110. a bad material winding motor; 111. a lining paper winding motor; 112. a backing paper take-up shaft; 113. a conveying motor; 114. a driving conveying wheel; 115. a first driven wheel; 116. an auxiliary shaft bracket; 117. a second driven wheel; 118. a first feed bearing; 119. a second feed bearing; 120. a material guide wheel; 121. a feeding fixing seat; 122. a feed slide; 123. a feed slide rail; 2. a slitting mechanism; 201. a slitting machine frame; 202. a slitting cutter shaft; 203. leveling the support; 204. a front mold shaft; 205. a rear mold shaft; 206. an upper cutter shaft; 207. a cutter shaft adjusting hand wheel; 208. leveling the shaft; 209. a first mounting tooth shaft; 210. a second mounting gear shaft; 211. installing a hand wheel; 212. locking a spanner; 213. an adjusting hand wheel; 214. a feeding guide table; 215. a feeding guide roller; 216. a guide adjusting groove; 217. a support table; 218. cutting the sliding blocks; 219. cutting the sliding rail; 220. cutting a motor; 221. cutting an auxiliary shaft; 222. a belt wheel; 223. cutting a driving wheel; 224. dividing and cutting a driven wheel; 225. a rim charge collecting shaft; 226. a rim charge driving shaft; 227. edge material driven wheel; 228. a rim charge driving wheel; 229. a rim charge collecting and winding drum;

3. a material receiving mechanism; 301. a material receiving rack; 302. a material receiving shaft; 303. tightening the cylinder; 304. tightening an oil hydraulic cylinder; 305. tightening the plate seat; 306. a material pressing seat; 307. a pressing arm; 308. a material receiving bearing; 309. a receiving nut; 310. a material pressing oil cylinder; 311. a first guide arm; 312. a second guide arm; 313. a first inductive arm; 314. a second inductive arm; 315. an induction head; 316. a material receiving motor; 317. an auxiliary shaft; 318. a material receiving synchronous wheel; 319. a material receiving driving wheel; 320. receiving a material driven wheel; 321. a discharging car; 322. a discharging slide rail;

4. a strip.

Detailed Description

The technical scheme of the utility model is further described below by the specific embodiments with reference to the accompanying drawings.

As shown in fig. 1 to 9, in this embodiment, a full-automatic slitting machine includes a feeding mechanism 1, a slitting mechanism 2 and a receiving mechanism 3.

The feeding mechanism 1 comprises a material frame 101, a material cylinder 102, a hydraulic module 103, a feeding vehicle 104 and a bad material rolling cylinder 106, wherein the tail end of the hydraulic module 103 is connected to one side of the material frame 101, the feeding vehicle 104 is fixed to the driving end of the hydraulic module 103, wheels 107 are mounted on two sides of the feeding vehicle 104, wheel paths 108 are arranged on two sides of the hydraulic module 103, the wheels 107 roll in the wheel paths 108, a feeding driving device 109 is fixed on the feeding vehicle 104, the material cylinder 102 rotates on the material frame 101, a bad material rolling motor 110 is mounted on the front side of the material frame 101, the bad material rolling cylinder 106 is rotationally connected to the material frame 101, a driving end of the bad material rolling motor 110 is in transmission connection with the bad material rolling cylinder 106, a lining paper rolling motor 111 and a lining paper rolling shaft 112 are further arranged at the front end of the material frame 101, and the lining paper rolling shaft 112 is rotationally connected to the material frame 101, and a belt is in transmission connection between the lining paper rolling shaft 112 and the driving end of the lining paper rolling motor 111.

Under the drive of the hydraulic module 103, the feeding hydraulic station 105 provides power, the feeding vehicle 104 drives the coiled strip 4 placed on the feeding driving device 109 to move towards the material frame 101, the strip 4 with large weight is not required to be manually conveyed, labor is saved, the driving force of the hydraulic module 103 is relieved through rolling of wheels 107 on two sides in a wheel path 108 in the moving process of the feeding vehicle 104, when the strip 4 is placed on the material cylinder 102 and is output backwards, lining paper wound on the strip 4 is wound out in a proper position, at the moment, the lining paper winding motor 111 drives the lining paper winding shaft 112 to rotate, the winding and collection of the lining paper are carried out, meanwhile, the defective material head is wound and collected by the defective material winding cylinder 106 driven by the defective material winding motor 110, and the defective material is continuously output backwards.

The material frame 101 is provided with a conveying motor 113, a driving conveying wheel 114 is arranged at the driving end of the conveying motor 113, a first driven wheel 115 is arranged on the material cylinder 102, the driving conveying wheel 114 is connected with the driving conveying wheel 114 through a belt in a transmission manner, and the conveying motor 113 drives the first driven wheel 115 to rotate through the driving conveying wheel 114, so that the material cylinder 102 can rotate and output the belt 4.

The front end of the material frame 101 is also provided with an auxiliary shaft bracket 116, the material cylinder 102 is provided with a second driven wheel 117, the auxiliary shaft bracket 116 is connected with the second driven wheel 117 in a belt transmission way, and the added auxiliary shaft bracket 116 and the second driven wheel 117 assist the position of the material cylinder 102 to prevent the heavy belt material 4 from toppling over due to uneven stress after being assembled.

The material frame 101 is provided with a first feed bearing 118 and a second feed bearing 119, the material cylinder 102 passes through the first feed bearing 118 and the second feed bearing 119, and friction generated by the material cylinder 102 during rotation is reduced under the action of the first feed bearing 118 and the second feed bearing 119.

The feeding driving device 109 is a feeding driving motor, and of course, the feeding driving device 109 may be other driving structures, so as to be capable of feeding the strip 4.

The material guide wheel 120 is mounted at the rear end of the material frame 101, the material guide wheel 120 rotates on the material frame 101, and the coiled strip 4 can smoothly and backward move along the straight line direction under the action of the material guide wheel 120.

The below of material frame 101 is provided with feeding fixing base 121, along horizontal direction sliding connection between material frame 101 and the feeding fixing base 121, the lower extreme of material frame 101 is fixed with feeding slider 122, is fixed with feeding slide rail 123 on the feeding fixing base 121, and feeding slider 122 slides on feeding slide rail 123, on material frame 101, in order to match follow-up slitting process, need adjust the left and right sides position of feed mechanism 1, through the relative action of feeding slider 122 and feeding slide rail 123, removes the material frame 101 a short distance on feeding fixing base 121, realizes the purpose of adjustment.

The slitting mechanism 2 comprises a slitting frame 201, a slitting cutter shaft 202, a leveling support 203, a front die shaft 204 and a rear die shaft 205, wherein the slitting cutter shaft 202 is rotationally connected to the slitting frame 201, an upper cutter shaft 206 is movably arranged on the slitting frame 201 along the vertical direction, an cutter shaft adjusting hand wheel 207 is connected above the upper cutter shaft 206, the upper cutter shaft 206 is positioned right above the slitting cutter shaft 202, the leveling support 203 is connected to the front end of the slitting frame 201, leveling shafts 208 are respectively arranged at the front end of the leveling support 203 and the rear end of the leveling support 203, the front die shaft 204 and the rear die shaft 205 are respectively arranged between the two leveling shafts 208, one end of the front die shaft 204 is connected with a first mounting gear shaft 209, one end of the rear die shaft 205 is connected with a second mounting gear shaft 210, and the first mounting gear shaft 209 and the second mounting gear shaft 210 are respectively in threaded connection with the leveling support 203.

After the strip 4 conveyed from the front enters the slitting machine frame 201, the strip 4 is slit at the rear through flattening of the front die shaft 204 and the rear die shaft 205, the front die shaft 204 and the rear die shaft 205 are required to be replaced according to the strip 4 with different thicknesses, in the replacement process, the first installation tooth shaft 209 is independently rotated, the front die shaft 204 can be unloaded, the second installation tooth shaft 210 is independently rotated, the rear die shaft 205 can be unloaded, the two die shafts can be independently adjusted to perform die cutting, and the cutter shaft adjusting hand wheel 207 controls the vertical position of the upper cutter shaft 206 to meet the thickness requirement of the strip 4.

One side of the leveling bracket 203 is further provided with a mounting hand wheel 211 and a locking wrench 212, the locking wrench 212 is connected with a locking shaft, the locking shaft penetrates through the mounting hand wheel 211 to be fixed, an adjusting hand wheel 213 is arranged above the middle of the leveling shaft 208, the adjusting hand wheel 213 controls the vertical position of the leveling shaft 208, after the front mold shaft 204 and the rear mold shaft 205 are adjusted, the mounting hand wheel 211 is rotated, the positions of the sides are fixed, the locking wrench 212 is used for fixing, in addition, the vertical positions of the front leveling shaft 208 and the rear leveling shaft 208 can be adjusted by the adjusting hand wheel 213, and different strips 4 are adapted.

The front of the leveling bracket 203 is provided with a feeding guide table 214, the feeding guide table 214 is provided with a feeding guide roller 215, the feeding guide table 214 is provided with a guide adjustment groove 216 along the vertical direction, the end part of the feeding guide roller 215 is fixed in the guide adjustment groove 216, the position of the feeding guide roller 215 is controlled by the guide adjustment groove 216 according to the position of slitting in the front, and the guiding of the strip 4 before slitting is satisfied.

A supporting table 217 is arranged below the slitting machine frame 201, a slitting slide block 218 is fixed at the lower end of the slitting machine frame 201, a slitting slide rail 219 is fixed on the supporting table 217, the slitting slide block 218 transversely slides on the slitting slide rail 219, and according to the transverse position of slitting, the slitting slide block 218 and the slitting slide rail 219 are connected, so that the whole slitting machine frame 201 transversely moves to slit different positions on the strip 4.

The slitting machine frame 201 is provided with a slitting motor 220 and a slitting auxiliary shaft 221, the driving end of the slitting motor 220 is in transmission connection with one end of the slitting auxiliary shaft 221 through a belt pulley 222 and a belt, the slitting auxiliary shaft 221 is provided with a slitting driving wheel 223, the slitting cutter shaft 202 is provided with a slitting driven wheel 224, and the slitting driving wheel 223 is in transmission connection with the slitting driven wheel 224.

Moreover, a rim charge collecting shaft 225 and a rim charge driving shaft 226 are arranged at the rear of the slitting machine frame 201, a rim charge driven wheel 227 is arranged on the rim charge driving shaft 226, a rim charge driving wheel 228 is arranged on the slitting auxiliary shaft 221, the rim charge driving wheel 228 is connected with the rim charge driven wheel 227 through belt transmission, the rim charge driving shaft 226 is connected with the rim charge collecting shaft 225 through transmission, and two rim charge collecting winding drums 229 are arranged on the rim charge collecting shaft 225.

The slitting motor 220 drives the slitting knife shaft 202 and the rim charge collecting shaft 225 to rotate through the same slitting auxiliary shaft 221, so that the rim charges on both sides are wound and collected on the rim charge collecting winding drum 229 while the slitting process is performed.

The material receiving mechanism 3 comprises a material receiving rack 301, a material receiving shaft 302, a tightening cylinder 303, a tightening hydraulic cylinder 304, a tightening plate seat 305, a material pressing seat 306 and a material pressing arm 307, wherein the tightening plate seat 305 is located on one side of the material receiving rack 301, a material receiving bearing 308 is installed on the tightening plate seat 305, one end of the material receiving shaft 302 is connected in the material receiving bearing 308, the other end of the material receiving shaft 302 is locked with a material receiving nut 309, the tightening cylinder 303 and the tightening hydraulic cylinder 304 are fixedly installed on the material receiving rack 301, the driving end of the tightening cylinder 303 is connected with the side edge of the tightening plate seat 305, the driving end of the tightening hydraulic cylinder 304 is connected with the middle part of the tightening plate seat 305, a material pressing cylinder 310 is further installed on the material receiving rack 301, the middle part of the material pressing arm 307 is rotationally connected on the material pressing seat 306, the rear end of the material pressing arm 307 is hinged on the driving end of the material pressing cylinder 310, and the front end of the material pressing arm 307 is pressed on the strip 4.

The material receiving nut 309 is unscrewed, the material receiving shaft 302 is taken down, after the material receiving shaft 302 is replaced to the proper material receiving shaft 302 of the current strip 4, according to actual needs, the tightening plate seat 305 is tightened by either one of the tightening cylinder 303 and the tightening hydraulic cylinder 304, so that the material receiving shaft 302 is firmly fixed on the material receiving rack 1, the other end of the material receiving shaft 302 is locked by virtue of the material receiving nut 309, and in the process of receiving the strip 4, the material pressing cylinder 310 controls the material pressing arm 307 to press the strip 4, so that the strip 4 is ensured to be tightly wound, and the final winding effect is good.

The material receiving rack 301 is provided with a first guide arm 311 and a second guide arm 312, one end of the first guide arm 311 is hinged with the material pressing seat 306, the other end of the first guide arm 311 is hinged with one end of the second guide arm 312, the middle part of the second guide arm 312 is hinged with the material pressing arm 307, the other end of the second guide arm 312 is pressed on the strip 4, and before the strip 4 is wound, the strip 4 needs to be guided due to a certain distance at the front cutting position, the first guide arm 311 and the second guide arm 312 are utilized for bending and forming, and the second guide arm 312 guides the strip 4 in front to enter the material receiving shaft 302.

Be provided with first response arm 313 and second response arm 314 on receiving material frame 301, the one end of first response arm 313 is articulated with pressing material seat 306, and the other end of first response arm 313 is articulated with the one end of second response arm 314, and the middle part of second response arm 314 articulates on receiving material frame 301, and the other end of second response arm 314 is connected with inductive head 315, by the combination of first response arm 313 and second response arm 314 for inductive head 315 is close to the strip 4 of coiling and is gone up the response, collects information.

The material receiving machine frame 301 is provided with a material receiving motor 316, the driving end of the material receiving motor 316 is in transmission connection with a material receiving shaft 302, the material receiving machine frame 301 is also provided with an auxiliary shaft 317, the material receiving motor 316 is in transmission connection with the auxiliary shaft 317 through a belt and a material receiving synchronous wheel 318, the auxiliary shaft 317 is provided with a material receiving driving wheel 319, the material receiving shaft 302 is provided with a material receiving driven wheel 320, the material receiving driving wheel 319 is in transmission connection with the material receiving driven wheel 320, and the material receiving motor 316 controls the rotation of the material receiving shaft 302 through the auxiliary shaft 317, so that the material 4 is received.

The material receiving mechanism 3 further comprises a material discharging vehicle 321, a material discharging slide rail 322 is arranged on one side of the material receiving frame 301, the lower end of the material discharging vehicle 321 slides on the material discharging slide rail 322, the material 4 which is received on the material receiving shaft 302 can be unloaded, placed on the material discharging vehicle 321, and separated from the material receiving frame 301 by means of the sliding belt of the material discharging slide rail 322.

It should be noted that the above embodiments are merely preferred embodiments of the present utility model and the applied technical principles, and any changes or substitutions easily conceivable to those skilled in the art within the scope of the present utility model are included in the scope of the present utility model.

Claims (10)

1. A full-automatic slitting machine is characterized by comprising a feeding mechanism, a slitting mechanism and a receiving mechanism,

the feeding mechanism comprises a material frame, a material cylinder, a hydraulic module, a feeding vehicle and a defective material rolling cylinder, wherein the tail end of the hydraulic module is connected to one side of the material frame, the feeding vehicle is fixed to the driving end of the hydraulic module, wheels are arranged on two sides of the feeding vehicle, wheel paths are arranged on two sides of the hydraulic module, the wheels roll in the wheel paths, a feeding driving device is fixed on the feeding vehicle, the material cylinder rotates on the material frame, a defective material rolling motor is arranged on the front side of the material frame, the defective material rolling cylinder is rotationally connected to the material frame, the driving end of the defective material rolling motor is in transmission connection with the defective material rolling cylinder, a lining paper rolling motor and a lining paper rolling shaft are further arranged at the front end of the material frame, and the lining paper rolling shaft is rotationally connected to the material frame, and a belt between the lining paper rolling shaft and the driving end of the lining paper rolling motor is in transmission connection;

the slitting mechanism comprises a slitting frame, slitting cutter shafts, a leveling support, a front die shaft and a rear die shaft, wherein the slitting cutter shafts are rotationally connected to the slitting frame, an upper cutter shaft is movably arranged on the slitting frame along the vertical direction, an cutter shaft adjusting hand wheel is connected to the upper part of the upper cutter shaft, the upper cutter shaft is positioned right above the slitting cutter shafts, the leveling support is connected to the front end of the slitting frame, leveling shafts are respectively arranged at the front end of the leveling support and the rear end of the leveling support, the front die shaft and the rear die shaft are respectively arranged between the two leveling shafts, one end of the front die shaft is connected with a first mounting gear shaft, one end of the rear die shaft is connected with a second mounting gear shaft, and the first mounting gear shaft and the second mounting gear shaft are respectively and spirally connected to the leveling support;

the material collecting mechanism comprises a material collecting rack, a material collecting shaft, a tightening cylinder, a tightening hydraulic cylinder, a tightening plate seat, a material pressing seat and a material pressing arm, wherein the tightening plate seat is positioned on one side of the material collecting rack, a material collecting bearing is arranged on the tightening plate seat, one end of the material collecting shaft is connected with the material collecting bearing, a material collecting nut is locked at the other end of the material collecting shaft, the tightening cylinder and the tightening hydraulic cylinder are fixedly arranged on the material collecting rack, the driving end of the tightening cylinder is connected with the side edge of the tightening plate seat, the driving end of the tightening hydraulic cylinder is connected with the middle part of the tightening plate seat, a material pressing cylinder is further arranged on the material collecting rack, the middle part of the material pressing arm is rotationally connected with the material pressing seat, the rear end of the material pressing arm is hinged to the driving end of the material pressing cylinder, and the front end of the material pressing arm is pressed on a belt material.

2. The full-automatic slitting machine according to claim 1, wherein a conveying motor is mounted on the material frame, a driving conveying wheel is arranged at a driving end of the conveying motor, a first driven wheel is arranged on the material cylinder, and the driving conveying wheel is in belt transmission connection with the driving conveying wheel.

3. The full-automatic slitting machine according to claim 2, wherein an auxiliary shaft bracket is further installed at the front end of the material frame, a second driven wheel is arranged on the material cylinder, and the auxiliary shaft bracket is in belt transmission connection with the second driven wheel.

4. The full-automatic slitting machine according to claim 1, wherein a feeding fixing seat is arranged below the material frame, and the material frame is in sliding connection with the feeding fixing seat along a horizontal direction.

5. The full-automatic slitting machine according to claim 1, wherein one side of the leveling bracket is further provided with a mounting hand wheel and a locking wrench, the locking wrench is connected with a locking shaft, and the locking shaft is fixed through the mounting hand wheel.

6. The full-automatic slitting machine according to claim 1, wherein a feeding guide table is arranged in front of the flattening support, a feeding guide roller is arranged on the feeding guide table, a guide adjustment groove is arranged on the feeding guide table along the vertical direction, and the end part of the feeding guide roller is fixed in the guide adjustment groove.

7. The full-automatic slitting machine according to claim 1, wherein a slitting motor and a slitting auxiliary shaft are installed on the slitting frame, a driving end of the slitting motor is in transmission connection with one end of the slitting auxiliary shaft through a belt wheel and a belt, a slitting driving wheel is arranged on the slitting auxiliary shaft, a slitting driven wheel is installed on the slitting cutter shaft, and the slitting driving wheel is in transmission connection with the slitting driven wheel.

8. The full-automatic slitting machine according to claim 1, wherein a first guide arm and a second guide arm are arranged on the material receiving rack, one end of the first guide arm is hinged to the material pressing seat, the other end of the first guide arm is hinged to one end of the second guide arm, the middle part of the second guide arm is hinged to the material pressing arm, and the other end of the second guide arm is pressed on the strip.

9. The full-automatic slitting machine according to claim 1, wherein a receiving motor is mounted on the receiving frame, and a driving end of the receiving motor is in transmission connection with the receiving shaft.

10. The full-automatic slitting machine according to claim 9, wherein an auxiliary shaft is further installed on the material receiving rack, the material receiving motor is in transmission connection with the auxiliary shaft through a belt and a material receiving synchronous wheel, a material receiving driving wheel is installed on the auxiliary shaft, a material receiving driven wheel is installed on the material receiving shaft, and the material receiving driving wheel is in transmission connection with the material receiving driven wheel.

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