CN212471756U - Intelligent horizontal and vertical splitting machine - Google Patents

Abstract

The utility model discloses an intelligence is violently erected and is cut machine, including cutting mounting panel, feeding roller set, swager constructs, circular knife mechanism, crosscut mechanism, sword groove mechanism are fixed in respectively and cut on the mounting panel, and circular knife mechanism, crosscut mechanism are located swager structure top respectively, and circular knife mechanism is located one side of crosscut mechanism, and feeding roller group middle part is arranged in to sword groove mechanism level. The feeding roller group comprises a feeding roller group driving part, a main feeding guide roller and a passive feeding guide roller, one end of the main feeding guide roller is in transmission connection with the feeding roller group driving part through a chain, the other end of the main feeding guide roller is in transmission connection with the passive feeding guide roller, and the passive feeding guide rollers are in transmission connection through the chain; the cutter groove mechanism is arranged between the main feeding guide roller and the passive feeding guide roller and is arranged in the same level with the main feeding guide roller and the passive feeding guide roller; the feeding roller group comprises a feeding roller group driving part, a main feeding guide roller and a passive feeding guide roller.

Description

Intelligent horizontal and vertical splitting machine

Technical Field

The utility model relates to a cutting machine equipment technical field specifically is intelligence is anyhow to cut the machine.

Background

The transverse and vertical slitting machine is used for transversely and vertically slitting a plurality of pieces of small production cotton with equal or unequal sizes, and the production cotton refers to sponge plates, coiled materials, pearl cotton EVA, EPE pearl cotton and the like which are composed of polyethylene foam cotton and the like.

The splitting machine in the prior art has the problems of simple structure, insufficient intellectualization, inaccurate feeding and positioning, knife clamping errors and the like, so that the production efficiency is not improved, and the product quality qualified rate is low.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide an intelligence is anyhow cut the machine to solve the problem that proposes in the above-mentioned background art.

In order to solve the technical problem, the utility model provides a following technical scheme: the intelligent transverse and vertical splitting machine comprises a splitting support plate, a feeding roller set, a material pressing mechanism, a circular knife mechanism, a transverse cutting mechanism and a knife groove mechanism. The feeding roller set, the pressing mechanism, the circular knife mechanism, the transverse cutting mechanism and the knife groove mechanism are respectively fixed on the slitting support plate, the pressing mechanism is located above the feeding roller set, the feeding roller set plays a role in active feeding, and the pressing mechanism plays a role in auxiliary feeding. The circular knife mechanism and the transverse cutting mechanism are respectively positioned above the material pressing mechanism, and the circular knife mechanism is positioned on one side of the transverse cutting mechanism and used for performing different cutting actions on the produced cotton. The cutter groove mechanisms are arranged in the feeding roller group in parallel, and the axes of the cutter groove mechanisms are correspondingly arranged right below the axes of the circular cutter mechanisms, so that the produced cotton is prevented from being completely cut off.

Furthermore, the feeding roller group comprises a feeding roller group driving part, a main feeding guide roller and a passive feeding guide roller. The main feeding guide roller and the passive feeding guide roller are arranged in the horizontal direction, one end of the main feeding guide roller is connected with the movable end of the feeding roller set driving part through chain transmission, one end of the main feeding guide roller, which is far away from the feeding roller set driving part, is connected with the passive feeding guide roller through chain transmission, and the passive feeding guide rollers are connected through chain transmission. The main feeding guide roller is used for the active feeding work, and the passive feeding guide roller is used for the auxiliary feeding function. The cutter groove mechanism is arranged between the main feeding guide roller and the driven feeding guide roller, the cutter groove mechanism is arranged at the same level with the main feeding guide roller and the driven feeding guide roller, and the height can be adjusted according to production requirements, so that the cotton quilt is completely cut off.

Further, the material pressing mechanism comprises a material pressing roller set and a material pressing lifting set, and the material pressing roller set is located above the material pressing lifting set. The material pressing roller group is used for assisting in conveying cotton production, and the material pressing lifting group is used for adjusting the height of the material pressing guide roller according to production requirements and simultaneously ensuring that the material pressing guide roller is positioned on the same horizontal plane. The pressing roller set comprises a main pressing guide roller, a driven pressing guide roller and a pressing roller set driving part, the main pressing guide roller and the driven pressing guide roller are arranged in the horizontal direction, one end of the main pressing guide roller is in transmission connection with the movable end of the pressing roller set driving part through a chain, the same end of the main pressing guide roller and the same end of the pressing roller set driving part are in transmission connection with the driven pressing guide roller through a chain, and the driven pressing guide rollers are in transmission connection through chains. The power source of the pressing roller group is a driving part of the pressing roller group, and combined chain type transmission action is adopted among pressing guide rollers of the pressing roller group, so that full-intelligent, efficient and high-speed production is realized. The material pressing lifting group comprises a balance plate, a material pressing lifting group driving part, a screw, a lifting transmission chain, a nut and a fixed block, and the balance plate is arranged at two ends of the material pressing roller group, so that the material pressing guide rollers are always positioned on the same horizontal plane. The screw rod sets up the four corners position at swager with vertical direction, and the both ends of screw rod are connected with the fixed block bearing respectively, and one side of fixed block is fixed in the internal surface of cutting the mounting panel respectively, and nut movable mounting is on the screw rod, and one side and the balance plate fixed connection of nut play when guaranteeing to press the material module to be on a parallel with the pay-off module, and it rises or descends to drive the material module. The lifting transmission chain is horizontally arranged, the lower end of the screw penetrates through the fixed block and is in transmission connection with the lifting transmission chain, and the lifting transmission chain is in transmission connection with the movable end of the material pressing lifting group driving component. The material pressing lifting group driving component is started to drive the lifting transmission chain, the lifting transmission chain drives the screw to rotate anticlockwise or clockwise, the nut and the screw move relatively, and the nut drives the balance plate to move, so that the material pressing modules ascend or descend uniformly. The balance plate is provided with a through hole, and the two ends of the main material pressing guide roller and the driven material pressing guide roller are respectively penetrated through the through holes at the corresponding positions, so that the material pressing module is ensured to be parallel to the feeding module all the time.

Further, circular knife mechanism includes lead screw, circular knife displacement driver part, guide rail, circular knife rotary driving part, circular knife actuating lever, circular knife, knife rest, card sword cylinder and circular knife locking part, cuts the mounting panel and is equipped with and cuts the support channel-section steel for the position of fixed circular knife mechanism. The cutting support channel steel is hollow, the guide rail is arranged at the bottom end of the cutting support channel steel, and the guide rail plays a role in guiding the position of the circular knife. The guide rail is correspondingly provided with a slide block, the knife rest is fixedly connected with the slide block, and the slide block plays a role in driving the knife rest to move. One end of the screw rod is connected with the movable end of the circular knife displacement driving part in a chain transmission mode, one end, far away from the circular knife displacement driving part, of the circular knife driving rod is connected with the movable end of the circular knife rotation driving part in a chain transmission mode, and full-intelligent and efficient production is achieved. The cutter clamping cylinder is fixed at the top end of the cutter frame and plays a role in positioning the circular cutter according to different production requirements. The circular knife is hollow, the circular knife penetrates through the circular knife driving rod, the circular knife locking parts are arranged on two sides of the knife rest correspondingly to the circular knives respectively, one circular knife is matched with the other circular knife, the knife placing precision is high, and servo transmission is achieved.

Furthermore, the transverse cutting mechanism comprises a transverse cutting driving part, a serrated knife rest, a gear, a rack, a balancing rod, a guide rod and a bump, the transverse cutting driving part is respectively fixed on the slitting support plate, the serrated knife rest is arranged at the upper end of the serrated knife, the movable end of the transverse cutting driving part is connected with the serrated knife rest, and the transverse cutting driving part is a power source of the transverse cutting mechanism and drives the serrated knife rest and the serrated knife to do vertical reciprocating linear motion. The vertical setting of guide bar, the both ends of guide bar are fixed with the lug respectively, and the lug is fixed in the internal surface of cutting the mounting panel respectively, and the guide bar plays the guide effect to the serrated knife. The one side that tooth was kept away from to the rack is fixed in one side of lug, and on the guide bar was worn to locate at tooth tool rest both ends, the both ends of tooth tool rest were equipped with the supporting shoe, and the supporting shoe is worn to locate respectively at the both ends of balancing pole, and balanced setting aim at: the serrated knife and the guide rod are always in a parallel state. The two ends of the balancing rod are provided with gears which are meshed with the racks. And starting a transverse cutting driving part, driving a rack, driving a balance rod to move by the rack, and driving a gear and a rack to do meshing motion, so that the rack is driven to do up-and-down reciprocating linear motion to cut the produced cotton.

Further, sword groove mechanism includes cylinder, gag lever post, stopper and sword groove, one side of stopper respectively with cut mounting panel fixed connection, the stopper top is located to the cylinder, the expansion end of cylinder pass the stopper respectively with the sword groove be connected, the vertical setting of gag lever post, on the stopper is fixed in respectively at the both ends of gag lever post, the gag lever post is worn to locate respectively in the four corners position in sword groove. The axis of the cutter groove is correspondingly positioned under the axis of the circular cutter mechanism, and the cutter groove is arranged in parallel with the feeding roller group. The setting aim at of gag lever post lies in: the cutter groove is limited and guided.

Compared with the prior art, the utility model discloses the beneficial effect who reaches is: the intelligent transverse and vertical splitting machine comprises a splitting support plate, a feeding roller set, a material pressing mechanism, a circular knife mechanism, a transverse cutting mechanism and a knife groove mechanism. The slitting support plate is the foundation of the whole slitting machine. The feeding roller group plays a role in active feeding, and the pressing mechanism plays a role in auxiliary feeding. The circular knife mechanism and the transverse cutting mechanism are used for performing different slitting actions on the produced cotton. The cutter groove mechanism can be adjusted in height according to production requirements, so that the cotton quilt can be completely cut off. The feed end and the discharge end of the splitting machine can be matched with other components, and the other components comprise an intelligent feeding platform, an intelligent material receiving platform, a manual feeding platform, a manual material receiving platform, a waste discharge machine, a hydraulic punching machine, a waste discharge and punching integrated machine and the like. The utility model has reasonable structure, combined chain type production mode, safety, stability, high efficiency and high speed; the cross cutting mechanism, the circular knife mechanism and the material pressing mechanism can be adjusted according to different production requirements, and produced cotton is cut uniformly and is high in precision.

Drawings

The accompanying drawings are included to provide a further understanding of the invention, and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention, and together with the description serve to explain the invention and not to limit the invention. In the drawings:

fig. 1 is a schematic diagram of the overall three-dimensional structure of the present invention;

FIG. 2 is an enlarged view of a portion of the mechanism of FIG. 1;

FIG. 3 is a schematic structural view of the circular knife mechanism of the present invention;

FIG. 4 is an enlarged view of a portion of FIG. 3;

fig. 5 is a schematic structural view of the cross cutting mechanism of the present invention;

FIG. 6 is a schematic structural view of the feed roller set of the present invention;

fig. 7 is a schematic structural view of the material pressing mechanism of the present invention;

in the figure: 1. cutting a support plate 11 and cutting a support channel steel; 3. a feeding roller group 31, a feeding roller group driving part 32, a main feeding guide roller 33 and a passive feeding guide roller; 4. the device comprises a material pressing mechanism 41, a material pressing roller group 411, a main material pressing guide roller 412, a driven material pressing guide roller 413, a material pressing roller group driving component 42, a material pressing lifting group 421, a balance plate 4211, a through hole 422, a material pressing lifting group driving component 423, a screw rod 424, a lifting transmission chain 425, a nut 426 and a fixed block; 5. the circular knife mechanism 51, the screw rod 52, the circular knife displacement driving part 53, the guide rail 54, the circular knife rotation driving part 55, the circular knife driving rod 56, the circular knife 57, the knife rest 58, the knife clamping cylinder 59, the circular knife locking part 510 and the slide block; 6. a transverse cutting mechanism 61, a transverse cutting driving component 62, a toothed cutter 63, a toothed cutter frame 631, a supporting block 64, a gear 65, a rack 66, a balance rod 67, a guide rod 68 and a bump; 7. the knife groove mechanism 71, the air cylinder 72, the limiting rod 73, the limiting block 74 and the knife groove.

Detailed Description

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

Referring to fig. 1-7, the present invention provides a technical solution: the intelligence is violently erected and is cut the machine and is included cutting mounting plate 1, feed roll group 3, swager constructs 4, circular knife mechanism 5, cross cutting mechanism 6, sword groove mechanism 7 is fixed in respectively and cuts on mounting plate 1, swager constructs 4 and is located feeding roller group 3 top, circular knife mechanism 5, cross cutting mechanism 6 is located swager constructs 4 top respectively, circular knife mechanism 5 is located one side of cross cutting mechanism 6, sword groove mechanism 7 parallel arrangement is in feeding roller group 3, the axis correspondence of sword groove mechanism 7 sets up under circular knife mechanism 5's the axis.

And connecting a power supply, inputting the thickness and the slitting size parameters of the cotton to be produced into a touch screen, connecting the touch screen with an intelligent control system, and controlling and adjusting the initial positions of all mechanisms by the intelligent system. The production cotton is put into the feeding roller group 3 and the material pressing mechanism 4 to transmit to the discharge end under the combined action, the circular cutter mechanism 5 and the transverse cutter mechanism 6 cut the production cotton, and the cutter groove mechanism 7 ensures that the production cotton is completely cut off in the process.

The feeding roller group 3 comprises a feeding roller group driving part 31, a main feeding guide roller 32 and a driven feeding guide roller 33, the main feeding guide roller 32 and the driven feeding guide roller 33 are arranged in the horizontal direction, one end of the main feeding guide roller 32 is in transmission connection with the movable end of the feeding roller group driving part 31 through a chain, one end of the main feeding guide roller 32, which is far away from the feeding roller group driving part 31, is in transmission connection with the driven feeding guide roller 33 through a chain, and the driven feeding guide rollers 33 are in transmission connection through chains; the cutter groove mechanism 7 is arranged between the main feeding guide roller 32 and the driven feeding guide roller 33, and the cutter groove mechanism 7 is arranged at the same level with the main feeding guide roller 32 and the driven feeding guide roller 33.

The power supply is connected, the feeding roller set driving part 31 is started, the main feeding guide roller 32 is driven by a chain, the main feeding guide roller 32 is driven by a driven feeding guide roller 33 by the chain, the driven feeding guide rollers 33 are also driven by the chain, and the chain transmission is combined to convey the produced cotton to the discharging end together.

The material pressing mechanism 4 comprises a material pressing roller group 41 and a material pressing lifting group 42, and the material pressing roller group 41 is positioned above the material pressing lifting group 42; the pressing roller set 41 comprises a main pressing guide roller 411, a driven pressing guide roller 412 and a pressing roller set driving part 413, the main pressing guide roller 41 and the driven pressing guide roller 412 are arranged in the horizontal direction, one end of the main pressing guide roller 411 is in transmission connection with the movable end of the pressing roller set driving part 413 through a chain, the same ends of the main pressing guide roller 411 and the pressing roller set driving part 413 are in transmission connection with the driven pressing guide roller 412 through the chain, and the driven pressing guide rollers 412 are in transmission connection through the chain; the pressing lifting group 42 comprises a balance plate 421, a pressing lifting group driving component 422, a screw 423, a lifting transmission chain 424, a nut 425 and a fixed block 426, the balance plate 421 is arranged at two ends of the pressing roller group 41, the screw 423 is arranged at four corners of the pressing mechanism 4 in the vertical direction, two ends of the screw 423 are respectively connected with bearings of the fixed block 426, one side of the fixed block 426 is respectively fixed on the inner surface of the slitting support plate 1, the nut 425 is movably arranged on the screw 423, one side of the nut 425 is fixedly connected with the balance plate 421, the lifting transmission chain 424 is horizontally arranged, the lower end of the screw 423 penetrates through the fixed block 426 to be in transmission connection with the lifting transmission chain 424, and the lifting transmission chain 424 is in transmission connection with the movable end of the pressing group driving component 422; the balance plate 421 is provided with a through hole 4211, and both ends of the main swaging guide roller 411 and the passive swaging guide roller 412 are respectively inserted into the through holes 4211 at corresponding positions.

The material pressing lifting group driving component 422 is started to drive the lifting transmission chain 424, the lifting transmission chain 424 drives the screw 423 to rotate anticlockwise or clockwise, the nut 425 and the screw 423 move relatively, the nut 425 drives the balance plate 421 to move, the balance plate 421 drives the material pressing roller group 41 to do reciprocating linear motion up and down, and the adjustment and the positioning are carried out according to parameters such as the thickness and the size of the produced cotton; the driving part 413 of the material pressing roller set is started, the driving material pressing guide roller 411 is driven by a chain to drive the driven material pressing guide roller 412, the driven material pressing guide rollers 412 are driven by the chain, the chain transmission is combined, and the auxiliary material feeding roller set 3 conveys the produced cotton from the feeding end to the discharging end.

Circular knife mechanism 5 includes lead screw 51, circular knife displacement drive unit 52, guide rail 53, circular knife rotation drive unit 54, circular knife actuating lever 55, circular knife 56, knife rest 57, card sword cylinder 58 and circular knife locking unit 59, it is equipped with cuts support channel-section steel 11 to cut mounting panel 1, it is hollow to cut support channel-section steel 11, guide rail 53 locates and cuts support channel-section steel 11 bottom, be equipped with slider 531 on the guide rail 53, knife rest 57 and slider 531 fixed connection, the one end of lead screw 51 is connected through chain drive with the expansion end of circular knife displacement drive unit 52, the one end of circular knife actuating lever 55 is connected through chain drive with the expansion end of circular knife rotation drive unit 54, card sword cylinder 58 is fixed in knife rest 57 top, circular knife 56 is hollow, circular knife 56 wears to locate on circular knife actuating lever 55, circular knife locking unit 59 corresponds circular knife 56 respectively and sets up in knife rest 57 both sides.

And connecting a power supply, starting the cutter clamping cylinder 58, sequentially placing the circular cutters 56 to preset positions, and then starting the circular cutter locking component 59 to lock the circular cutters 56. Putting the production cotton, starting the circular knife displacement driving part 52 to drive the screw rod 51 to rotate, driving the knife rest 57, enabling the knife rest 57 to do reciprocating linear motion on the guide rail 53 by virtue of the slide block 510, driving the circular knife 56 to do reciprocating linear motion on the circular knife driving rod 55, and adjusting and positioning according to the slitting size parameters of the production cotton; the circular knife rotation driving part 54 is started, and the circular knife driving rod 55 is driven by a chain to drive the circular knife 56 to rotate, so that the produced cotton is cut.

The transverse cutting mechanism 6 comprises a transverse cutting driving part 61, a toothed cutter 62, a toothed cutter frame 63, a gear 64, a rack 65, a balance bar 66, a guide rod 67 and a bump 68, wherein the transverse cutting driving part 61 is fixed on the slitting support plate 1 respectively, the movable end of the transverse cutting driving part 61 is connected with the toothed cutter frame 63, the guide rod 67 is vertically arranged, two ends of the guide rod 67 are fixed with the bump 68 respectively, the bump 68 is fixed on the slitting support plate 1 respectively, the back of the rack 65 is fixed on one side of the bump 68, two ends of the toothed cutter frame 63 penetrate through the guide rod 67, two ends of the toothed cutter frame 63 are provided with supporting blocks 631, two ends of the balance bar 66 penetrate through the supporting blocks 631 respectively, two ends of the balance bar 66 are provided with the gear 64, and the gear 64 is meshed.

The power supply is connected, the transverse cutting driving component 61 is started, the transmission rack 63 makes up-and-down reciprocating linear motion on the guide rod 67, the rack 63 drives the balance rod 66 to move, the balance rod 66 drives the gear 64 and the rack 65 to make meshing motion, so that the rack knife 62 is driven to make up-and-down reciprocating linear motion, the rack knife 62 and the guide rod 67 are always in a parallel state, and the cotton production is accurately cut.

The knife groove mechanism 7 comprises a cylinder 71, a limiting rod 72, a limiting block 73 and a knife groove 74, one side of the limiting block 73 is fixedly connected with the slitting support plate 1, the cylinder 71 is arranged at the top end of the limiting block 73, the movable end of the cylinder 71 penetrates through the limiting block 73 to be connected with the knife groove 74, the limiting rod 72 is vertically arranged, two ends of the limiting rod 72 are fixed on the limiting block 73 respectively, and four corners of the knife groove 74 penetrate through the limiting rod 72 respectively. The axis of the cutter groove 74 is correspondingly positioned right below the axis of the circular cutter mechanism 5 and is parallel to the feeding roller group 3.

The cylinder 71 is started to drive the cutter groove 74 to do reciprocating linear motion up and down on the limiting rod 72 by being connected with a power supply, and the cutter groove is adjusted and positioned according to the thickness and the size parameters of the produced cotton to prevent the produced cotton from being completely cut off.

The utility model discloses a theory of operation: connecting a power supply, inputting parameters such as thickness, cutting size and the like of the cotton to be produced into a touch screen, wherein the touch screen is connected with an intelligent control system; starting a material pressing lifting group driving part 422 to drive a lifting transmission chain 424, wherein the lifting transmission chain 424 drives a screw 423 to rotate anticlockwise or clockwise, a nut 425 and the screw 423 generate relative motion, the nut 425 drives a balance plate 421 to move, the balance plate 421 drives a material pressing roller group 41 to do vertical reciprocating linear motion, and the adjustment and the positioning are carried out according to parameters such as the thickness and the size of cotton to be produced; starting a cutter clamping cylinder 58, sequentially placing the circular cutters 56 to a preset position, and then starting a circular cutter locking component 59 to lock the circular cutters 56; the cylinder 71 is started to drive the cutter groove 74 to do reciprocating linear motion up and down on the limiting rod 72, and the adjustment and the positioning are carried out according to the parameters of the thickness, the size and the like of the produced cotton.

Then putting the production cotton, starting the feeding roller set driving part 31, driving the main feeding guide roller 32 through a chain, driving the driven feeding guide roller 33 through the chain by the main feeding guide roller 32, and driving the driven feeding guide roller 33 through the chain; the driving part 413 of the material pressing roller set is started, the main material pressing guide roller 411 is driven by a chain, the main material pressing guide roller 411 is driven by a driven material pressing guide roller 412 by the chain, the driven material pressing guide rollers 412 are also driven by the chain, and the chain transmission is combined to jointly transmit the produced cotton from the feeding end to the discharging end; starting the circular knife displacement driving part 52 to drive the screw rod 51 to rotate, driving the knife rest 57, enabling the knife rest 57 to do reciprocating linear motion on the guide rail 53 by virtue of the slide block 510, driving the circular knife 56 to do reciprocating linear motion on the circular knife driving rod 55, starting the circular knife rotation driving part 54, and driving the circular knife driving rod 55 to rotate by virtue of chain transmission, and driving the circular knife 56 to rotate; when the transverse cutting driving component 61 is started, the driving rack 63 makes up-and-down reciprocating linear motion on the guide rod 67, the rack 63 drives the balance rod 66 to move, and the balance rod 66 drives the gear 64 to make meshing motion with the rack 65, so that the rack 62 is driven to make up-and-down reciprocating linear motion.

It is noted that, herein, relational terms such as first and second, and the like may be 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. Also, 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: although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that modifications may be made to the embodiments described in the foregoing embodiments, or equivalents may be substituted for elements thereof. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (6)

1. Horizontal perpendicular cutting machine of intelligence, its characterized in that: the splitting machine comprises a splitting support plate (1), a feeding platform (2), a feeding roller group (3), a material pressing mechanism (4), a circular knife mechanism (5), a transverse cutting mechanism (6) and a knife groove mechanism (7), a feeding platform (2) is arranged on one side of the slitting support plate (1), the feeding roller group (3), the pressing mechanism (4), the circular knife mechanism (5), the transverse cutting mechanism (6) and the knife groove mechanism (7) are respectively fixed on the slitting support plate (1), the material pressing mechanism (4) is positioned above the material feeding roller group (3), the circular knife mechanism (5) and the transverse cutting mechanism (6) are respectively positioned above the material pressing mechanism (4), the circular knife mechanism (5) is positioned at one side of the transverse cutting mechanism (6), the knife groove mechanism (7) is arranged in the feeding roller group (3) in parallel, the axis of the cutter groove mechanism (7) is correspondingly arranged right below the axis of the circular cutter mechanism (5).

2. The intelligent horizontal and vertical slitting machine according to claim 1, wherein: the feeding roller set (3) comprises a feeding roller set driving part (31), a main feeding guide roller (32) and a driven feeding guide roller (33), the main feeding guide roller (32) and the driven feeding guide roller (33) are arranged in the horizontal direction, one end of the main feeding guide roller (32) is in transmission connection with the movable end of the feeding roller set driving part (31) through a chain, one end of the main feeding guide roller (32), which is far away from the feeding roller set driving part (31), is in transmission connection with the driven feeding guide roller (33) through the chain, and the driven feeding guide rollers (33) are in transmission connection through the chain; the cutter groove mechanism (7) is arranged between the main feeding guide roller (32) and the driven feeding guide roller (33), and the cutter groove mechanism (7) is arranged at the same level with the main feeding guide roller (32) and the driven feeding guide roller (33).

3. The intelligent horizontal and vertical slitting machine according to claim 1, wherein: the pressing mechanism (4) comprises a pressing roller group (41) and a pressing lifting group (42), and the pressing roller group (41) is positioned above the pressing lifting group (42); the pressing roller set (41) comprises a main pressing guide roller (411), a driven pressing guide roller (412) and a pressing roller set driving part (413), the main pressing guide roller (411) and the driven pressing guide roller (412) are arranged in the horizontal direction, one end of the main pressing guide roller (411) is in transmission connection with the movable end of the pressing roller set driving part (413) through a chain, the same end of the main pressing guide roller (411) and the pressing roller set driving part (413) is in transmission connection with the driven pressing guide roller (412) through the chain, and the driven pressing guide rollers (412) are in transmission connection through the chain; the pressing lifting group (42) comprises a balance plate (421), a driving part (422) of the pressing lifting group, a screw (423), a lifting transmission chain (424), a nut (425) and a fixed block (426), the balance plates (421) are arranged at two ends of the pressing roller group (41), the screws (423) are arranged at four corners of the pressing mechanism (4) in the vertical direction, two ends of the screws (423) are respectively connected with the fixed block (426) through bearings, one side of the fixed block (426) is respectively fixed on the inner surface of the slitting support plate (1), the nut (425) is movably arranged on the screw rod (423), one side of the nut (425) is fixedly connected with the balance plate (421), the lifting transmission chain (424) is horizontally arranged, the lower end of the screw rod (423) penetrates through the fixed block (426) and is in transmission connection with the lifting transmission chain (424), the lifting transmission chain (424) is in transmission connection with the movable end of the material pressing lifting group driving part (422); be equipped with through-hole (4211) on balance plate (421), the through-hole (4211) of corresponding position are worn to locate respectively by the both ends of main material deflector roll (411), passive material deflector roll (412).

4. The intelligent horizontal and vertical slitting machine according to claim 1, wherein: the circular knife mechanism (5) comprises a screw rod (51), a circular knife displacement driving part (52), a guide rail (53), a circular knife rotation driving part (54), a circular knife driving rod (55), a circular knife (56), a knife rest (57), a knife clamping cylinder (58) and a circular knife locking part (59), the cutting support plate (1) is provided with a cutting support channel steel (11), the cutting support channel steel (11) is hollow, the guide rail (53) is arranged at the bottom end of the cutting support channel steel (11), a slide block (531) is correspondingly arranged on the guide rail (53), the knife rest (57) is fixedly connected with the slide block (531), one end of the screw rod (51) is connected with the movable end of the circular knife displacement driving part (52) through chain transmission, one end of the circular knife driving rod (55) far away from the circular knife displacement driving part (52) is connected with the movable end of the circular knife rotation driving part (54) through chain transmission, the circular knife locking mechanism is characterized in that the knife clamping cylinder (58) is fixed at the top end of the knife rest (57), the circular knife (56) is hollow, the circular knife (56) penetrates through the circular knife driving rod (55), and the circular knife locking components (59) are arranged on two sides of the knife rest (57) corresponding to the circular knife (56) respectively.

5. The intelligent horizontal and vertical slitting machine according to claim 1, wherein: the transverse cutting mechanism (6) comprises a transverse cutting driving part (61), a toothed cutter (62), a toothed cutter frame (63), a gear (64), a rack (65), a balancing rod (66), a guide rod (67) and a convex block (68), wherein the transverse cutting driving part (61) is respectively fixed on the slitting support plate (1), the toothed cutter frame (63) is arranged at the upper end of the toothed cutter (62), the movable end of the transverse cutting driving part (61) is connected with the toothed cutter frame (63), the guide rod (67) is vertically arranged, the two ends of the guide rod (67) are respectively fixed with the convex block (68), the convex block (68) is respectively fixed on the inner surface of the slitting support plate (1), one surface of the rack (65) far away from the toothed teeth is fixed on one side of the convex block (68), the two ends of the toothed cutter frame (63) are arranged on the guide rod (67) in a penetrating manner, and the two ends of the toothed cutter frame (63) are, two ends of the balance rod (66) are respectively arranged in the supporting block (631) in a penetrating mode, two ends of the balance rod (66) are provided with gears (64), and the gears (64) are meshed with the racks (65).

6. The intelligent horizontal and vertical slitting machine according to claim 1, wherein: the cutter groove mechanism (7) comprises an air cylinder (71), a limiting rod (72), a limiting block (73) and a cutter groove (74), one side of the limiting block (73) is fixedly connected with the slitting support plate (1) respectively, the air cylinder (71) is arranged at the top end of the limiting block (73), the movable end of the air cylinder (71) penetrates through the limiting block (73) to be connected with the cutter groove (74) respectively, the limiting rod (72) is vertically arranged, two ends of the limiting rod (72) are fixed on the limiting block (73) respectively, and four corners of the cutter groove (74) penetrate through the limiting rod (72) respectively; the axis of the cutter groove (74) is correspondingly positioned under the axis of the circular cutter mechanism (5), and the cutter groove (74) is arranged in parallel with the feeding roller group (3).

Images