CN215091017U

CN215091017U - Slitting machine capable of transversely and longitudinally cutting

Info

Publication number: CN215091017U
Application number: CN202022692962.1U
Authority: CN
Inventors: 洪重阳
Original assignee: Fujian Xinhonghua Machinery Co ltd
Current assignee: Fujian Xinhonghua Machinery Co ltd
Priority date: 2020-11-19
Filing date: 2020-11-19
Publication date: 2021-12-10
Anticipated expiration: 2030-11-19

Abstract

The utility model provides a slitting machine capable of transversely and longitudinally cutting, which comprises a roller line of a double-layer roller, a longitudinal cutting device and a transverse cutting device; the longitudinal cutting device is arranged on the roller line and is positioned between any two rows of rollers; the transverse cutting device is arranged at the outlet end of the roller line. The utility model has the advantages that: the roller line of double-deck roller can compress tightly the sheet metal flattening of waiting to cut, avoids rocking when cutting, can once only cut the sheet metal through set up horizontal cutting device and vertical cutting device on the roller line, can reduce substantially that labor reduces, and the benefit of improving production, and area is less, and the corresponding two of investment cost cut the lathe and reduce substantially.

Description

Slitting machine capable of transversely and longitudinally cutting

Technical Field

The utility model relates to a light steel equipment field especially relates to a but slitting machine of crosscut and rip cutting.

Background

In the prior art, the corresponding product is cut into long strips with different sizes by cutting a coiled metal material plate. The metal plate can be stainless steel plate, color steel plate, aluminum magnesium manganese plate, and galvanized plate. It is common practice to cut a metal plate into strips by one machine and then cut the strips into small pieces by another machine. Two machines are needed in the cutting process, the cutting process is complex, the occupied area of the machine table is large, and the manufacturing cost is high when the two machines are used for cutting.

Disclosure of Invention

An object of the utility model is to provide a but slitting machine of crosscut and rip cutting has solved the unable once only problem that cuts into the platelet of bold metal material board.

A slitting machine capable of transversely and longitudinally cutting comprises a roller line of a double-layer roller, a longitudinal cutting device and a transverse cutting device; the longitudinal cutting device is arranged on the roller line and is positioned between any two rows of rollers; the transverse cutting device is arranged at the outlet end of the roller line.

Furthermore, the longitudinal cutting device comprises a first longitudinal cutter component, a second longitudinal cutter component and a driving device for driving the first cutter component and the second cutter component to rotate and cut; the first longitudinal cutting assembly is positioned above the second longitudinal cutting assembly; the first longitudinal cutter assembly comprises a first gear, a plurality of rotary cutters and a first rotating shaft for mounting the rotary cutters, one end of the first rotating shaft penetrates through the rack of the roller line, and the first gear is mounted on the first rotating shaft and is positioned outside the rack; the first rotating shaft is flush with the top of the lower layer roller of the roller line; the second longitudinal cutter assembly comprises a second gear, a plurality of rotary cutters and a second rotating shaft used for mounting the rotary cutters, the second rotating shaft penetrates through two sides of the rack, the driving device and the second gear are mounted on the second rotating shaft respectively and located on the outer side of the rack, and the second gear is meshed with the first gear. The driving device drives the second rotating shaft to rotate, and a second gear outside the second rotating shaft is meshed with the first gear on the first rotating shaft, so that the first rotating shaft is driven to rotate. The metal plate is fixed by the first rotating shaft and the second rotating shaft, and the metal plate is cut by the cutters positioned on the second rotating shaft and the second rotating shaft.

Furthermore, the driving device is a rotary hydraulic motor or a rotary motor or a servo motor.

Furthermore, first grooves are formed in the corresponding positions of the two sides of the rack, and first fixing assemblies with adjustable heights are arranged in the first grooves of the two sides of the rack; the two first fixing components are provided with fixing component mounting holes for mounting the first longitudinal cutter component; the first longitudinal cutter assembly is arranged on the two first fixing assemblies through the fixing assembly mounting holes. The height of the first longitudinal cutter is adjusted through the first fixing assembly, and the cutting machine is suitable for cutting metal plates with different thicknesses.

Furthermore, the first fixing assembly comprises a first fixing block, a first fixing plate and a first adjusting screw rod; the first fixing plate is fixedly arranged above the first groove; the first fixing block is positioned in the first groove, and a first screw rod hole for a screw rod to pass through is formed in the first fixing plate; the adjusting screw rod penetrates through the first screw rod hole and is fixedly connected with the first fixing block; the height of the first fixing block is smaller than that of the first groove; the fixed component mounting hole is formed in the first fixed block, and the first longitudinal cutter component is mounted on the first fixed block. The height of a first fixed block in the first groove is adjusted through a first adjusting screw rod, so that the height of the first longitudinal cutter assembly is adjusted.

Furthermore, second grooves are formed in two sides of the rack, and second fixing assemblies with adjustable heights are arranged in the two second grooves; the two second fixing assemblies are provided with corresponding roller mounting holes; a roller mounting hole positioned on one side of the first gear penetrates through the second fixing component; the gear box also comprises a plurality of third gears; the double-layer roller penetrates through the roller mounting holes on the two sides and is mounted on the two second fixing assemblies, and the upper layer roller penetrates through the roller mounting holes and is positioned outside the second fixing assemblies; the plurality of third gears are arranged on the upper-layer roller and meshed with each other, and the third gear close to one side of the second gear is meshed with the second gear. The third gear is meshed with the second gear so as to drive the roller to rotate.

Furthermore, the second fixing component comprises a second fixing block, a second fixing plate and a second adjusting screw rod; the second fixing plate is fixedly arranged above the second groove; the second fixing block is positioned in the second groove, and a second screw rod hole for a screw rod to pass through is formed in the second fixing plate; the adjusting screw rod penetrates through the second screw rod hole and is fixedly connected with the second fixed block; the height of the second fixing block is smaller than that of the second groove; the roller mounting hole is arranged on the second fixing block, and the roller is mounted on the second fixing block.

Furthermore, the transverse cutting device comprises a cutting frame, a lower cutter part, an upper cutter part and a pushing mechanism for pushing the upper cutter part to cut downwards; the pushing mechanism is arranged on the cutting frame; the upper cutter part is arranged on the pushing mechanism; the lower cutter part is arranged on the cutting frame and is positioned below the upper cutter part, and the top of the lower cutter part is flush with the top of the lower roller of the roller line.

Further, the lower cutter part comprises a lower cutter seat and a lower cutter arranged on the lower cutter seat; the lower cutter seat is provided with a lower cutter mounting groove, and the lower cutter is connected with the lower cutter mounting groove in a locking manner; the upper cutter part comprises an upper cutter seat and an upper cutter arranged on the upper cutter seat, the upper cutter seat is provided with an upper cutter mounting groove, and the upper cutter is connected with the upper cutter mounting groove in a locking manner; the inner side surface of the upper cutter and the inner side surface of the lower cutter are on the same longitudinal plane; the pushing mechanism is installed on the rack and connected with the upper cutter holder, and drives the upper cutter part to cut downwards.

Further, the device also comprises two feeding carrier rollers; the two feeding carrier rollers are vertically arranged on the frame and located in the last working procedure of the roller, and a gap for the metal plate to pass through is formed between the two feeding carrier rollers. The feeding carrier roller is arranged to facilitate feeding and prevent scratching.

Further, the device also comprises a feeding adjusting mechanism; the feeding adjusting mechanism is arranged on the frame and is positioned between the feeding carrier roller and the roller; the feeding adjusting mechanism comprises at least one adjusting roller, a sliding block and an adjusting wheel, wherein the sliding block and the adjusting wheel are arranged on the adjusting roller; the sliding block is provided with a sliding groove, the sliding block is slidably arranged on the adjusting roller through the sliding groove, the sliding block is provided with a vertical mounting rod, and the adjusting wheel is rotatably arranged on the mounting rod; the number of the sliding blocks and the adjusting wheels is at least two. The slider can be transferred between the adjusting roller, and the adjusting wheel is used for chucking metal material board, avoids rocking at the process of conveying and cutting, leads to the precision to reduce.

Furthermore, the device also comprises a plurality of pull rods, wherein two ends of each pull rod are arranged on two sides of the rack. Increasing the rigidity of the frame.

After the technical scheme is adopted, the beneficial effects of the utility model are that: the roller line of double-deck roller can compress tightly the sheet metal flattening of waiting to cut, avoids rocking when cutting, can once only cut the sheet metal through set up horizontal cutting device and vertical cutting device on the roller line, can reduce substantially that labor reduces, and the benefit of improving production, and area is less, and the corresponding two of investment cost cut the lathe and reduce substantially.

Drawings

Fig. 1 is a schematic view of the overall structure of the present invention.

Fig. 2 is a schematic view of the present invention in another direction.

Fig. 3 is a schematic view of fig. 1 taken along direction a.

Fig. 4 is a schematic structural diagram of the transverse cutting device.

FIG. 5 is a schematic top view of a cross cutting apparatus.

Fig. 6 is a sectional view a-a of fig. 5.

1: roll line, 11: frame, 12: roller, 13: third gear, 14: first groove, 15: second groove, 2: longitudinal cutting device, 21: drive device, 22: second slitting assembly, 221: second rotation axis, 222: rotary cutter, 223: second gear, 23: first slitting assembly, 231: first rotation axis, 232: rotary cutter, 233: a first gear; 3: transverse cutting device, 31: cutting frame, 32: pushing mechanism, 321: cylinder, 322: link mechanism, 33: upper cutter portion, 331: upper blade holder, 332: upper cutter, 34: lower cutter portion, 341: lower cutter holder, 342: lower cutter, 4: first fixing member, 41: first fixing block, 42: first fixing plate, 43: first adjustment screw, 44: fixed component mounting hole, 5: second fixing member, 51: second fixed block, 52: second fixing plate, 53: second adjustment screw, 54: roller mounting hole, 6: feeding carrier roller, 7: feed adjustment mechanism, 71: steering roller, 72: slider, 73: adjustment wheel, 8: a pull rod.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more clearly understood, the present invention is further described in detail below with reference to the accompanying drawings and embodiments.

As shown in fig. 1 to 6, the present embodiment discloses a slitting machine capable of transversely and longitudinally slitting, which includes a roller line 1 with a double-layer roller, a transverse slitting device 3 and a longitudinal slitting device 4. The longitudinal cutting device 4 is arranged on the roller line 1 and is positioned between any two rows of rollers 12, and the transverse cutting device 3 is arranged at the outlet end of the roller line 1. The roller line 1 of the double-layer roller can be used for pressing and leveling metal plates.

The transverse cutting device 3 includes a cutting frame 31, a lower cutter portion 34, an upper cutter portion 33, and a pushing mechanism 32 that pushes the upper cutter portion to cut downward. The pushing mechanism 32 is arranged on the cutting machine frame 31, the upper cutter part 33 is arranged on the pushing mechanism 32, the lower cutter part 34 is arranged on the cutting machine frame 31 and is positioned below the upper cutter part 33, and the top of the lower cutter part 34 is flush with the top of the lower layer roller 1 of the roller line 1. The lower cutter portion 34 comprises a lower cutter seat 341 and a lower cutter 342, the lower cutter seat 341 is provided with a lower cutter mounting groove, the lower cutter 342 is connected with the lower cutter mounting groove in a locking manner, and the blade of the lower cutter 342 is flush with the top of the lower cutter seat 341 and the top of the lower layer roller 1.

The upper cutter portion 33 includes an upper cutter base 331 and a cutter 332 disposed on the upper cutter base 331, the upper cutter base 331 is provided with an upper cutter mounting groove, and the upper cutter 332 is connected to the upper cutter mounting groove in a locking manner. The pushing mechanism 32 is mounted on the cutting frame 31 and connected to the upper knife holder 331, and the pushing mechanism 32 pushes the upper knife part 33 to cut downward. The pushing mechanism 32 can be an oil cylinder 321, the oil cylinder 31 is installed on the cutting frame 31, the other end of the oil cylinder 321 is connected with the upper cutter holder 331, or the pushing mechanism includes the oil cylinder 321, a pushing rod 323 and a plurality of link mechanisms 322, one end of each link mechanism 322 is connected with the top of the cutting frame 31, the other end of each link mechanism 322 is connected with the upper cutter holder 331, the pushing rod 323 is connected with the link mechanisms 322, and the oil cylinder 321 is located on one side of the link mechanism 322 and connected with the pushing rod 323.

The corresponding positions of the two sides of the rack 11 are provided with first grooves 14, the first grooves 14 on the two sides of the rack 11 are internally provided with first fixing assemblies 4 with adjustable heights, and the two first fixing assemblies 4 are provided with fixing assembly mounting holes 44 for mounting first longitudinal cutter assemblies 23. The first fixing assembly 4 comprises a first fixing block 41, a first fixing plate 42 and a first adjusting screw 43; the first fixing block 41 is arranged in the first groove 14, the first fixing plate 42 is arranged above the first groove 14, a first screw rod hole for a screw rod to pass through is formed in the first fixing plate 42, and the first adjusting screw rod passes through the first screw rod hole and is fixedly connected with the first fixing block 41. As shown in fig. 3, the height a of the first fixing block 41 is less than the height b of the first groove 14; the two first fixing blocks 41 are provided with fixing component mounting holes 44 which penetrate through the two first fixing blocks, and the first adjusting screw 43 can adjust the height of the first fixing block 42.

The longitudinal cutting device 2 comprises a first longitudinal cutter assembly 23, a second longitudinal cutter assembly 22 and a driving device 21 for driving the first longitudinal cutter assembly 23 and the second longitudinal cutter assembly 22 to rotate and cut; the first longitudinal cutter assembly 23 is positioned above the second longitudinal cutter assembly 22. The drive means 21 is a rotary hydraulic motor or a rotary electric machine or a servo motor.

The second longitudinal cutter assembly 23 includes a second rotating shaft 221, a second gear 233 and a plurality of second rotary cutters 232, wherein the plurality of rotary cutters 232 are adjustably disposed on the second rotating shaft 221. The second rotating shaft 221 is installed on the first fixing blocks 41 at both sides, and both ends of the second rotating shaft pass through the fixing member installation holes 44 of the two first fixing blocks 41, respectively, and one end of the second rotating shaft 221 is connected to the driving device 21, and the other end is connected to the second gear 233.

The first longitudinal cutter assembly 23 includes a first rotating shaft 231, a first gear 233 and a plurality of first rotary cutters 232, the plurality of first rotary cutters 232 are adjustably mounted on the first rotating shaft 231, and the first rotary cutters 232 on the first rotating shaft 231 correspond to the first rotary cutters 222 on the second rotating shaft 221. The first rotating shaft 231 is mounted on the first fixing block 41, the first gear 233 is mounted on the first rotating shaft 231 and located outside the first fixing block 41, and the first gear 233 is engaged with the second gear 223.

All be equipped with second recess 15 on the both sides of frame 11, all be equipped with the fixed subassembly 5 of second in two second recesses 15. The second fixing assembly 5 includes a second fixing block 51, a second fixing plate 52 and a second adjusting screw 53, the second fixing block 51 is disposed in the second groove 15, and a height c of the second fixing block 51 is smaller than a height d of the second groove 15. The second fixing plate 52 is fixedly arranged above the second groove 15; the second fixing plate 52 is provided with a second screw hole 54 through which the second adjusting screw 53 passes. The second adjusting screw 53 passes through the second screw hole and is fixedly connected with the second fixing block 51. The two second fixed blocks 51 are provided with roller mounting holes 54 in a penetrating manner, the rollers 12 on the roller line 1 penetrate through the roller mounting holes 54 to be connected with third gears 13 positioned on the outer sides of the second fixed blocks 51, the third gears 13 are mounted on the rollers 12, the third gears 13 are meshed with each other, and any third gear 13 is meshed with the second gear 223. The driving device 21 can drive the longitudinal cutting device and the rollers 12 to rotate through the meshing transmission of the first gear 233, the second gear 223 and the third gears 13.

For better feeding, the machine also comprises two feeding carrier rollers 6, wherein the two feeding carrier rollers 6 are vertically arranged on the frame 11 and positioned in the previous process of the roller 12, and a gap for the metal plates to pass through is arranged between the two feeding carrier rollers 6. The metal material board is through the clearance between two feeding bearing rollers 6 entering roller line 1, because do not have fixed metal material board and rock easily in getting into roller line 1, can't guarantee the precision that cuts at the back. A feeding adjusting mechanism 7 is arranged between the feeding carrier roller 6 and the roller 12.

The feeding adjusting mechanism 7 comprises at least one adjusting roller 71, a slide block 72 and an adjusting wheel 73 which are arranged on the adjusting roller 71; the number of the slider 72 and the adjustment wheel 73 is at least two. The sliding block 72 is provided with a sliding groove, the sliding block 72 is slidably mounted on the adjusting roller 71 through the sliding groove, and the width of the sliding block 72 can be adjusted according to requirements. A vertical mounting rod is arranged on the sliding block 72, and an adjusting wheel 73 is rotatably arranged on the mounting rod; the circumference of adjusting wheel 72 is equipped with the adjusting wheel spout, and the metal material board can inlay between the spout of two adjusting wheels, avoids taking place the skew.

Because the distance between the two sides of the frame 11 may be too long, a plurality of pull rods 8 can be fixedly installed on the two inner side walls of the frame 11, and the pull rods 8 can increase the stability of the frame 11.

To sum up, the utility model discloses a roller line of double-deck roller can carry out the pressfitting to the metal material board, sets up horizontal cutting device and vertical cutting device on the roller line and carry out once only cutting to the metal material board, and reduction that can be by a wide margin divides the area of strip machine, reduces intensity of labour and can save equipment cost. Set up the feeding that feeding bearing roller can be better on the roller line, fix the metal material board through feeding guiding mechanism, avoid rocking at the in-process that cuts, reduce cutting accuracy. The heights of the upper row of rollers and the first longitudinal cutter assembly can be adjusted through the first fixing assembly and the second fixing assembly, so that the device is suitable for metal plates with different thicknesses.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any changes or substitutions that can be easily conceived by those skilled in the art within the technical scope of the present invention should be covered by the present invention.

Claims

1. The utility model provides a but slitting machine of crosscut and rip cutting which characterized in that: the cutting device comprises a roller line of a double-layer roller, a longitudinal cutting device and a transverse cutting device; the longitudinal cutting device is arranged on the roller line and is positioned between any two rows of rollers; the transverse cutting device is arranged at the outlet end of the roller line.

2. A cross-slivering machine according to claim 1 wherein: the longitudinal cutting device comprises a first longitudinal cutter component, a second longitudinal cutter component and a driving device for driving the first longitudinal cutter component and the second longitudinal cutter component to rotate and cut; the first longitudinal cutter assembly is positioned above the second longitudinal cutter assembly;

the first longitudinal cutter assembly comprises a first gear, a plurality of rotary cutters and a first rotating shaft for mounting the rotary cutters, the first rotating shaft is mounted on the rack of the roller line, one end of the first rotating shaft penetrates through the rack of the roller line, and the first gear is mounted on the first rotating shaft positioned on the outer side of the rack; the first rotating shaft is flush with the top of the lower layer roller of the roller line;

the second longitudinal cutter assembly comprises a second gear, a plurality of rotary cutters and a second rotating shaft used for mounting the rotary cutters, the second rotating shaft penetrates through two sides of the rack, the driving device and the second gear are mounted on the second rotating shaft respectively and located on the outer side of the rack, and the second gear is meshed with the first gear.

3. A cross-slivering machine according to claim 2 wherein: the driving device is a rotary hydraulic motor or a rotary motor or a servo motor.

4. A cross-slivering machine according to claim 2 wherein: first grooves are symmetrically formed in two sides of the rack, and first fixing assemblies with adjustable heights are arranged in the first grooves in the two sides of the rack; the two first fixing components are provided with fixing component mounting holes for mounting the first longitudinal cutter component; the first longitudinal cutter assembly is arranged on the two first fixing assemblies through the fixing assembly mounting holes.

5. A cross-slivering machine according to claim 4, characterized in that: the first fixing assembly comprises a first fixing block, a first fixing plate and a first adjusting screw rod;

the first fixing plate is fixedly arranged above the first groove; the first fixing block is positioned in the first groove, and a first screw rod hole for a screw rod to pass through is formed in the first fixing plate;

the first adjusting screw rod penetrates through the first screw rod hole and is fixedly connected with the first fixing block; the height of the first fixing block is smaller than that of the first groove; the fixed component mounting hole is formed in the first fixed block, and the first longitudinal cutter component is mounted on the first fixed block.

6. A cross-slivering machine according to claim 2 wherein: second grooves are formed in two sides of the rack, and second fixing assemblies with adjustable heights are arranged in the two second grooves; the two second fixing assemblies are provided with corresponding roller mounting holes; a roller mounting hole positioned on one side of the first gear penetrates through the second fixing component; the frame is also provided with a roller mounting hole which penetrates through the frame;

the gear box also comprises a plurality of third gears; the double-layer roller penetrates through the roller mounting holes on the two sides and is mounted on the two second fixing assemblies, and the upper layer roller penetrates through the roller mounting holes and is positioned on the outer sides of the second fixing assemblies; the plurality of third gears are arranged on the upper-layer roller and meshed with each other, and the third gear close to one side of the second gear is meshed with the second gear.

7. A cross-slivering machine according to claim 6, characterized in that: the second fixing assembly comprises a second fixing block, a second fixing plate and a second adjusting screw rod;

the second fixing plate is fixedly arranged above the second groove; the second fixing block is positioned in the second groove, and a second screw rod hole for a second adjusting screw rod to penetrate through is formed in the second fixing plate;

the second adjusting screw rod penetrates through the second screw rod hole and is fixedly connected with the second fixed block; the height of the second fixing block is smaller than that of the second groove; the roller mounting hole is arranged on the second fixing block, and the roller is mounted on the second fixing block.

8. A cross-slivering machine according to claim 2 wherein: the transverse cutting device comprises a cutting frame, a lower cutter part, an upper cutter part and a pushing mechanism for pushing the upper cutter part to cut downwards; the pushing mechanism is arranged on the cutting frame; the upper cutter part is arranged on the pushing mechanism; the lower cutter part is arranged on the cutting frame and is positioned below the upper cutter part; the top of the lower cutter part is flush with the top of the lower roller of the roller line.

9. A cross-slivering machine according to claim 8 wherein: the lower cutter part comprises a lower cutter seat and a lower cutter arranged on the lower cutter seat; the lower cutter seat is provided with a lower cutter mounting groove, and the lower cutter is connected with the lower cutter mounting groove in a locking manner;

the upper cutter part comprises an upper cutter seat and an upper cutter arranged on the upper cutter seat, the upper cutter seat is provided with an upper cutter mounting groove, and the upper cutter is connected with the upper cutter mounting groove in a locking manner; the inner side surface of the upper cutter and the inner side surface of the lower cutter are on the same longitudinal plane; the pushing mechanism is installed on the rack and connected with the upper cutter holder, and drives the upper cutter part to cut downwards.

10. A cross-slivering machine according to claim 2 wherein: the device also comprises two feeding carrier rollers; the two feeding carrier rollers are vertically arranged on the frame and located in the last working procedure of the roller, and a gap for the metal plate to pass through is formed between the two feeding carrier rollers.

11. A cross-slivering machine according to claim 10 wherein: the device also comprises a feeding adjusting mechanism; the feeding adjusting mechanism is arranged on the frame and is positioned between the feeding carrier roller and the roller;

the feeding adjusting mechanism comprises at least one adjusting roller, a sliding block and an adjusting wheel, wherein the sliding block and the adjusting wheel are arranged on the adjusting roller; the sliding block is provided with a sliding groove, the sliding block is slidably arranged on the adjusting roller through the sliding groove, the sliding block is provided with a vertical mounting rod, and the adjusting wheel is rotatably arranged on the mounting rod; the circumference of adjusting wheel is equipped with the adjusting wheel spout, and the quantity of slider and adjusting wheel is two at least.

12. A cross-slivering and slitting machine as claimed in any one of claims 2 to 11 wherein: the device also comprises a plurality of pull rods, wherein two ends of each pull rod are arranged on two inner side walls of the rack.