CN217395148U - Double-layer circular knife transverse and vertical splitting machine - Google Patents

Abstract

The utility model belongs to the technical field of splitting machine equipment, in particular to a double-layer circular knife transverse and vertical splitting machine, which comprises a frame, wherein a vertical cutting mechanism, a transverse cutting mechanism and a feeding guide roller mechanism are arranged on the frame, the feeding guide roller mechanism comprises a first feeding guide roller component and a second feeding guide roller component, the vertical cutting mechanism is arranged between the first feeding guide roller component and the second feeding guide roller component, and the transverse cutting mechanism is arranged on one side of the discharge end of the second feeding guide roller component; the vertical cutting mechanism comprises a first vertical cutter shaft and a second vertical cutter shaft which are arranged up and down, and a plurality of groups of vertical cutting circular cutters are arranged on the first vertical cutter shaft and the second vertical cutter shaft; the transverse cutting mechanism comprises a first transverse cutter shaft and a second transverse cutter shaft which are arranged up and down, a group of transverse cutting round cutters are arranged on the first transverse cutter shaft and the second transverse cutter shaft, and the transverse cutting round cutters are driven by the transverse cutting displacement assembly to move transversely. The utility model discloses a double-deck circular knife setting makes this equipment can cut the EVA that hardness and thickness are bigger and other packing class materials, and the commonality of equipment is stronger.

Description

Double-layer circular knife transverse and vertical splitting machine

Technical Field

The utility model belongs to the technical field of cutting machine equipment, specifically be a horizontal perpendicular cutting machine of double-deck circular knife.

Background

A splitting machine is a mechanical device for splitting a product into a plurality of narrow-width materials, and is commonly used for paper making machinery, wire and cable mica tapes and printing and packaging machinery. The transverse and vertical slitting machine is a mechanical device capable of transversely and vertically slitting a product into a plurality of narrow materials, and is one of the slitting machines.

When the packaging material is processed, the packaging material needs to be cut, most of the existing transverse and vertical splitting machines are vertical knives and transverse knives arranged above a material pressing roller, cutting force is applied downwards through the transverse knives and the vertical knives to cut the material, cutting force is small, and when the packaging material with high hardness or high thickness is cut, the cutting effect is poor; in the prior art, a circular knife is also used as a vertical knife for cutting materials, but the arrangement of a single-layer circular knife cannot achieve great cutting force, and the cutting machine cannot be applied to cutting various types of packaging materials, and is not high in universality.

SUMMERY OF THE UTILITY MODEL

For solving the problem in the above-mentioned background art, the utility model provides a double-deck circular knife violently erects cutting machine realizes cutting the EVA and other packing class materials that hardness and thickness are bigger through crosscut circular knife and the vertical cut circular knife that set up respectively in packaging material's top and below, and the commonality of equipment is stronger.

The utility model adopts the following technical proposal: the utility model provides a horizontal vertical cutting machine of double-deck circular knife, includes the frame, installs in the frame and erects cutting mechanism, crosscut mechanism and pay-off deflector roll mechanism, wherein:

the feeding guide roller mechanism comprises a first feeding guide roller assembly arranged at the feeding end and a second feeding guide roller assembly arranged at the discharging end, the vertical cutting mechanism is arranged between the first feeding guide roller assembly and the second feeding guide roller assembly, and the transverse cutting mechanism is arranged on one side of the discharging end of the second feeding guide roller assembly;

the vertical cutting mechanism comprises a first vertical cutter shaft and a second vertical cutter shaft which are arranged from top to bottom, and a plurality of groups of vertical cutting circular cutters which are arranged in a one-to-one correspondence manner from top to bottom are arranged on the first vertical cutter shaft and the second vertical cutter shaft.

Furthermore, the transverse cutting mechanism comprises a first transverse cutter shaft and a second transverse cutter shaft which are arranged up and down, a group of transverse cutting round cutters which correspond up and down are arranged on the first transverse cutter shaft and the second transverse cutter shaft, and the transverse cutting round cutters are driven by the transverse cutting displacement assembly to move transversely along the axial direction of the first transverse cutter shaft and the axial direction of the second transverse cutter shaft.

Furthermore, the first vertical cutter shaft and the second vertical cutter shaft are arranged along the feeding direction in a staggered mode, so that the vertical cutting circular cutters which correspond to each other vertically are arranged in a separated mode.

Furthermore, circular cutter press rings are arranged on two sides of the vertical cutting circular cutters on the first vertical cutter shaft and the second vertical cutter shaft, first key grooves are formed in the circular cutter press rings, second key grooves corresponding to the first key grooves are formed in the first vertical cutter shaft and the second vertical cutter shaft, and bar-shaped keys are arranged in the first key grooves and the second key grooves corresponding to the first key grooves.

Furthermore, each vertical cutting circular knife on the second vertical knife shaft is matched with a knife protection assembly, semicircular guide rails are fixed on two sides of the second vertical knife shaft, sliding blocks matched with the semicircular guide rails are arranged on two sides of the knife protection assemblies, and the vertical cutting circular knife moves axially to drive the knife protection assemblies to move axially along the semicircular guide rails.

Furthermore, the knife protecting assembly comprises a first transition plate and a second transition plate which are arranged on two sides of a vertical cutting round knife on the second vertical knife shaft respectively, the upper end faces of the first transition plate and the second transition plate are flush, two first bearings are arranged at the lower end of the first transition plate at intervals, two second bearings are arranged at the lower end of the second transition plate at intervals, the second bearings and the first bearings are arranged oppositely, and the vertical cutting round knife is positioned between the first bearings and the second bearings.

Further, the crosscut displacement subassembly is including setting up the second power component in the frame below, the output transmission of second power component is connected with first vertical axle, the fixed cover of interval is equipped with two first synchronizing wheels about the first vertical axle, one side transversely relative with the second power component is equipped with two second synchronizing wheel subassemblies relative with first synchronizing wheel in the frame, second synchronizing wheel subassembly includes the second synchronizing wheel, first synchronizing wheel and the second synchronizing wheel that are in same horizontal plane constitute a set of synchronizing wheel, the cover is equipped with the belt respectively on two sets of synchronizing wheels, two upper and lower crosscut circular knives are respectively through coupling assembling and two upper and lower belt fixed connection.

Furthermore, coupling assembling includes the linear bearing of suit on first horizontal arbor or the horizontal arbor of second and with linear bearing fixed connection's horizontal sword motor mounting panel, is equipped with horizontal sword motor on the horizontal sword motor mounting panel, the output shaft and the crosscut circular knife fixed connection of horizontal sword motor.

Further, the first feeding guide roller assembly comprises a first feeding guide roller and a first pressing roller positioned above the first feeding guide roller;

the second feeding guide roller assembly comprises a second feeding guide roller and a second material pressing roller positioned above the second feeding guide roller;

the first feeding guide roller and the second feeding guide roller are arranged on the same horizontal plane;

the first material pressing roller and the second material pressing roller are arranged on the same horizontal plane, and the first material pressing roller and the second material pressing roller are driven by the lifting adjusting mechanism to move up and down in a reciprocating mode.

Furthermore, the lifting adjusting mechanism comprises mounting brackets crossing two sides of the rack, a first speed reducer fixed in the middle of the mounting brackets, and a first motor in transmission connection with the input end of the first speed reducer;

an output shaft extends from two ends of the first speed reducer in the transverse direction respectively, the tail ends of the two output shafts are connected with a transmission shaft in a transmission mode respectively, and the tail ends of the two transmission shafts are connected with two ends of the first material pressing rod and two ends of the second material pressing rod through the lifting assembly.

Further, feed end one side is equipped with feeding platform, and the last symmetry of feeding platform is equipped with two rectangular shape and leads to the groove, and rectangular shape leads to the groove and extends along horizontal direction, and the equal sliding connection has spacing subassembly in the groove is led to every rectangular shape, forms feedstock channel between two spacing subassemblies.

Compared with the prior art, the beneficial effects of the utility model are that:

(1) the double-layer circular knife transverse and vertical splitting machine of the utility model is provided with a plurality of groups of vertical cutting circular knives which are arranged in a one-to-one correspondence way from top to bottom on the first vertical knife shaft and the second vertical knife shaft; the first transverse cutter shaft and the second transverse cutter shaft are provided with a group of transverse cutting circular cutters which correspond up and down, the packaging material is positioned between the vertical cutting circular cutters which are arranged up and down and the transverse cutting circular cutters which are arranged up and down, the packaging material is under the action of an upper cutting force and a lower cutting force when being cut, the packaging material with common hardness can be cut, EVA and other packaging materials with large hardness and large thickness can also be cut, and the universality of the equipment is stronger.

(2) The utility model discloses a double-deck circular knife is anyhow erected cutting machine and is realized pressing the clearance between feed roll and the pressure feed roll through lift adjustment mechanism and adjust, makes equipment can adapt to the packaging material of different thickness, and in addition the setting of the double-deck circular knife of this equipment makes the scope of the packaging material thickness that this equipment can cut further strengthen.

Drawings

For a clearer explanation of the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without creative efforts.

FIG. 1 is the overall structure diagram (I) of the double-layer circular knife horizontal and vertical splitting machine of the utility model;

FIG. 2 is the overall structure diagram of the double-layer circular knife horizontal and vertical splitting machine of the utility model (II);

FIG. 3 is a schematic view of a vertical cutting mechanism of the double-layer circular knife horizontal and vertical cutting machine of the present invention;

FIG. 4 is a schematic view (I) of a partial structure of the double-layer circular knife horizontal and vertical splitting machine of the present invention;

fig. 5 is a schematic view (ii) of a part of the structure of the double-layer circular knife horizontal and vertical slitting machine of the present invention;

fig. 6 is a schematic view (three) of a partial structure of the double-layer circular knife horizontal and vertical splitting machine of the present invention;

fig. 7 is a schematic view (four) of a part of the structure of the double-layer circular knife horizontal and vertical slitting machine of the present invention;

wherein: 1-a frame, 2-a vertical cutting mechanism, 21-a first vertical cutter shaft, 22-a second vertical cutter shaft, 23-a vertical cutting circular cutter, 24-a circular cutter press ring, 25-a cutter protection component, 251-a slide block, 252-a first transition plate, 253-a second transition plate, 254-a first bearing, 26-a semicircular guide rail, 3-a transverse cutting mechanism, 31-a first transverse cutter shaft, 32-a second transverse cutter shaft, 33-a transverse cutting circular cutter, 34-a transverse cutting displacement component, 341-a second power component, 3411-a third motor, 3412-a second turbine speed reducer, 342-a first vertical shaft, 343-a first synchronous wheel, 344-a second synchronous wheel component, 3441-an upper bearing seat, 3442-a lower bearing seat, 3443-a rotating shaft and 3444-a second synchronous wheel, 345-a belt, 35-a connecting assembly, 351-a linear bearing, 352-a transverse knife motor mounting plate, 353-a transverse knife motor, 4-a feeding guide roller mechanism, 41-a first feeding guide roller assembly, 411-a first feeding guide roller, 412-a first pressure roller, 42-a second feeding guide roller assembly, 421-a second feeding guide roller, 422-a second pressure roller, 43-a lifting adjusting mechanism, 431-a mounting bracket, 432-a first speed reducer, 433-a first motor, 434-a transmission shaft, 435-a screw rod, 436-a support plate, 437-a guide shaft, 438-a bearing seat, 439-a guide cylinder, 44-a first power assembly, 441-a first turbine speed reducer, 442-a second motor, 45-a chain and 46-a gear set, 47-chain wheel, 48-auxiliary chain wheel, 49-synchronous belt, 5-feeding platform, 51-elongated through groove, 52-limiting component and 6-discharging platform.

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 present application, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments of the present invention, all other embodiments obtained by a person skilled in the art without creative efforts belong to the protection scope of the present invention.

The present invention will be discussed in detail with reference to fig. 1 to 7 and specific embodiments.

As shown in fig. 1-7, the utility model provides a horizontal and vertical cutting machine of double-deck circular knife, including frame 1, install vertical cutting mechanism 2, horizontal cutting mechanism 3 and pay-off deflector roll mechanism 4 in frame 1, wherein: the feeding guide roller mechanism 4 comprises a first feeding guide roller assembly 41 arranged at the feeding end and a second feeding guide roller assembly 42 arranged at the discharging end, the vertical cutting mechanism 2 is arranged between the first feeding guide roller assembly 41 and the second feeding guide roller assembly 42, and the transverse cutting mechanism 3 is arranged on one side of the discharging end of the second feeding guide roller assembly 42; the vertical cutting mechanism 2 comprises a first vertical cutter shaft 21 and a second vertical cutter shaft 22 which are arranged up and down, and a plurality of groups of vertical cutting circular cutters 23 which are arranged up and down in one-to-one correspondence are arranged on the first vertical cutter shaft 21 and the second vertical cutter shaft 22. The utility model discloses an erect and cut the circular sword on the mechanism 2 and all set up to double-deck circular sword, for the structure of current individual layer circular sword, the cutting dynamics increase can be used for cutting the great packaging material of hardness, makes the commonality of equipment stronger.

Specifically, the first vertical cutter shaft 21 and the second vertical cutter shaft 22 are arranged along the feeding direction in a staggered manner, so that the vertically corresponding vertical circular cutters 23 are always arranged in a mutually separated manner, and the phenomenon that the vertical circular cutters 23 are mutually damaged in the cutting process of the packaging material is avoided.

Specifically, as shown in fig. 3, circular knife press rings 24 are respectively disposed on two sides of the vertical cutting circular knife 23 on the first vertical knife shaft 21 and the second vertical knife shaft 22, first key slots are disposed on the circular knife press rings 24, second key slots corresponding to the first key slots are disposed on the first vertical knife shaft 22 and the second vertical knife shaft 23, and bar-shaped keys are disposed in the first key slots and the second key slots corresponding to the first key slots. The two circular knife press rings 24 on the two sides of the vertical circular knife 23 tightly press the vertical circular knife, so that the vertical circular knife can synchronously rotate with the first vertical knife shaft 22 and the second vertical knife shaft 23 in the rotating process, and the distance between two adjacent vertical circular knives can be manually or automatically adjusted.

Specifically, each vertical cutting circular knife on the second vertical knife shaft 23 is matched with a knife protection assembly 25, the knife protection assembly 25 is used for protecting the vertical cutting circular knife on the second vertical knife shaft 22, semicircular guide rails 26 are fixed on two sides of the second vertical knife shaft 22, sliders 251 matched with the semicircular guide rails 26 are arranged on two sides of the knife protection assembly 25, the vertical cutting circular knife 23 axially moves to drive the knife protection assembly 25 to axially move along the semicircular guide rails 26, and then adjustment of the distance between two adjacent vertical cutting circular knives is achieved.

Specifically, the knife protection assembly 25 includes a first transition plate 252 and a second transition plate 253 respectively disposed on two sides of the vertical cutting circular knife on the second vertical knife shaft 22, two first bearings 254 are disposed at intervals at the lower end of the first transition plate 252, two second bearings are disposed at intervals at the lower end of the second transition plate 253, the second bearings and the first bearings 254 are disposed oppositely, and the vertical cutting circular knife is disposed between the first bearings and the second bearings, and the first bearings and the second bearings are used for supporting the vertical cutting circular knife. Preferably, the upper end surfaces of the first transition plate 252 and the second transition plate 253 are flush with each other and are located on the same horizontal plane with the lower end surface of the packaging material, when the vertical cutting of the packaging material is completed, two ends of the narrow packaging material are just overlapped on the first transition plate 252 and the second transition plate 253, so that the narrow packaging material after the vertical cutting is conveyed forwards according to a set path, and is prevented from falling into the cutter shaft and deviating from the conveying path.

Specifically, the transverse cutting mechanism 3 includes a first transverse cutter shaft 31 and a second transverse cutter shaft 32 which are arranged up and down, a group of transverse cutting circular cutters 33 which correspond up and down are arranged on the first transverse cutter shaft 31 and the second transverse cutter shaft 32, and the transverse cutting circular cutters 33 are driven by a transverse cutting displacement assembly 34 to move transversely along the axial direction of the first transverse cutter shaft 31 and the second transverse cutter shaft 32. The utility model discloses a circle sword on vertical cutting mechanism 2 and the crosscut mechanism 3 all sets up to double-deck circle sword, and for the structure of current individual layer circle sword, the cutting dynamics increase can be used for cutting the great packaging material of hardness, makes the commonality of equipment stronger.

It should be understood that the vertical cutting circular knives 23 on the first vertical knife shaft 21 and the second vertical knife shaft 22 can be adjusted along the axial direction of the first vertical knife shaft 21 and the second vertical knife shaft 22, and the adjustment mode can be manual adjustment or automatic adjustment.

Specifically, the first feeding guide roller assembly 41 of the present embodiment includes a first feeding guide roller 411 and a first nip roller 412 located above the first feeding guide roller 411; the second feeding guide roller assembly 42 comprises a second feeding guide roller 421 and a second nip roller 422 located above the second feeding guide roller 421; the first feeding guide roller 411 and the second feeding guide roller 421 are arranged on the same horizontal plane, and the upper end surfaces of the first feeding guide roller 411 and the second feeding guide roller 421 are both positioned on the same horizontal plane with the feeding platform 5; the first nip roller 412 and the second nip roller 422 are disposed on the same horizontal plane, and the first nip roller 412 and the second nip roller 422 are driven by the lifting adjusting mechanism 43 to reciprocate up and down, so that the distance between the first nip roller 412 and the first feeding guide roller 411, and the distance between the second nip roller 421 and the second feeding guide roller 422 are adjusted by the lifting adjusting mechanism 43 before the actual cutting of the packaging material, so as to adapt to the specific thickness of the packaging material.

Specifically, the lifting adjusting mechanism 43 of the present embodiment includes a mounting bracket 431 crossing both sides of the rack, a first speed reducer 432 fixed in the middle of the mounting bracket 431, and a first motor 433 in transmission connection with an input end of the first speed reducer 432; an output shaft extends from each of two ends of the first speed reducer 432 in the transverse direction, the ends of the two output shafts are respectively connected with a transmission shaft 434 through a first coupler in a transmission manner, and the ends of the two transmission shafts 434 are connected with two ends of the first material pressing rod 412 and the second material pressing rod 422 through a lifting assembly.

Specifically, the lifting assembly of the embodiment includes a lead screw lifter in transmission connection with the tail end of the transmission shaft 434 through a second coupler, a lead screw 435 is vertically arranged on the lead screw lifter, a support plate 436 is fixedly connected to the lower end of the lead screw 435, a space for abdicating the abdicating mounting bracket 431 is arranged on the support plate 436, the support plate 436 is driven by the lead screw 435 to move up and down, two guide shafts 437 are arranged on the lower end surface of the support plate 436 at intervals, and the two guide shafts 437 are respectively connected with the first nip roll 412 and the second nip roll 422 through bearing seats 438; specifically, a bearing seat 438 is fixed at the tail end of the guide shaft 437, and the bearing seat 438 is connected with the first nip roll 412 and the second nip roll 422 through bearings; the mounting bracket 431 is provided with a guide cylinder 439 matched with the guide shaft 437, and the guide shaft 437 is driven by the lead screw 435 to move up and down along the guide cylinder 439 so as to drive the first nip roll 412 and the second nip roll 422 to move up and down, thereby realizing the lifting function of the first nip roll 412 and the second nip roll 422.

Specifically, the first feeding guide roller 411, the second feeding guide roller 421, the first vertical knife shaft 21 and the second vertical knife shaft 22 of the present embodiment are driven by the first driving mechanism to rotate; the first driving mechanism comprises a first power assembly 44, the output end of the first power assembly 44 is in transmission connection with a second feeding guide roller 421 through a chain 45, and the second feeding guide roller 421 drives a first feeding guide roller 411, a first vertical cutter shaft 21 and a second vertical cutter shaft 22 to rotate through a gear set 46; the first power assembly 44 comprises a first turbine speed reducer 441 fixed on the frame 1, and a second motor 442 in transmission connection with the first turbine speed reducer 441, wherein the output end of the first turbine speed reducer 441 is in transmission connection with the second feeding guide roller 421 through a chain 45; the gear set 46 includes a first gear disposed at an end of the second feeding guide roller 421, a second gear disposed on the frame 1, a third gear disposed on the first vertical shaft 21, a fourth gear disposed on the second vertical shaft 22, a fifth gear disposed on the frame 1, and a sixth gear disposed at an end of the first feeding guide roller 411, wherein the first gear is in meshing transmission with the second gear, the second gear is in meshing transmission with the third gear, the third gear is in meshing transmission with the fourth gear and the fifth gear, and the fifth gear is in meshing transmission with the sixth gear, so as to realize rotation of the second feeding guide roller 421, the first feeding guide roller 411, the first vertical shaft 21, and the second vertical shaft 22. Of course, in other embodiments, other transmission manners may be used, such as driving the first feeding guide roller, the second feeding guide roller, the first vertical knife shaft, and the second vertical knife shaft to rotate through chain transmission, synchronous belt transmission, and the like.

Specifically, in the present embodiment, a chain wheel 47 is sleeved on an end of the first feeding guide roller 411, the second feeding guide roller 421 and the second swaging roller 422 opposite to the first driving mechanism, an auxiliary chain wheel 48 is arranged on the frame 1, a synchronous belt 49 is sleeved on the chain wheel on the first feeding guide roller 411, the chain wheel on the second feeding guide roller 421 and the auxiliary chain wheel 48, and the chain wheel on the second swaging roller 422 is arranged outside the synchronous belt as a tension wheel, so that the first feeding guide roller 411 and the second feeding guide roller 421 synchronously and stably rotate.

Specifically, the traverse displacement assembly 34 of the present embodiment includes a second power assembly 341 disposed below the frame 1, an output end of the second power assembly 341 is in transmission connection with a first vertical shaft 342, two first synchronizing wheels 343 are fixedly sleeved on the first vertical shaft 342 at an upper-lower interval, two second synchronizing wheel assemblies 344 opposite to the first synchronizing wheels 343 are disposed on one side of the frame 1 transversely opposite to the second power assembly 341, each second synchronizing wheel assembly 344 includes an upper bearing seat 3441 and a lower bearing seat 3442 fixedly disposed on the frame 1, and a rotating shaft 3443 rotatably connected with the upper bearing seat 3441 and the lower bearing seat 3442 through bearings, the first synchronizing wheel and the second synchronizing wheel on the same horizontal plane form a group of synchronizing wheels, the two groups of synchronizing wheels are respectively sleeved with a belt 345, and the upper and lower transverse cutting circular knives 33 are respectively fixedly connected with the upper and lower belts through a connecting component 35; the second power assembly 341 includes a third motor 3411 and a second turbine speed reducer 3412 in transmission connection with an output end of the third motor 3411, an output end of the second turbine speed reducer 3412 is in transmission connection with the first vertical shaft 342, and the first vertical shaft 342 rotates to drive the first synchronous wheel 343 to rotate, so as to drive the belt 345 to move in the transverse direction.

Specifically, the connecting assembly 35 of this embodiment includes a linear bearing 351 sleeved on the first traverse shaft 31 or the second traverse shaft 32, and a traverse knife motor mounting plate 352 fixedly connected to the linear bearing 351, a traverse knife motor 353 is provided on the traverse knife motor mounting plate 352, an output shaft of the traverse knife motor 353 is fixedly connected to the traverse circular knife 33, and the traverse knife motor 353 drives the traverse circular knife 33 to rotate along its own axis.

Preferably, there are two first cross knife shafts 31 and two second cross knife shafts 32 in this embodiment, and each of the first cross knife shafts 31 and the second cross knife shafts 32 is sleeved with a linear bearing, so as to realize more stable movement of the cross-cutting circular knife 33.

Specifically, this embodiment feed end one side is equipped with feeding platform 5, and one side of discharge end is equipped with ejection of compact platform 6, and the last symmetry of feeding platform 5 is equipped with two rectangular shape and leads to groove 51, and rectangular shape leads to groove 51 and extends along the transverse direction, and equal sliding connection has spacing subassembly 52 in every rectangular shape leads to groove 51, forms feedstock channel between two spacing subassemblies 52. When the packaging material is actually cut, the gap between the two limiting assemblies 52 is adjusted according to the width of the packaging material.

The working principle of the utility model is as follows: starting a first motor 433 according to the thickness of the packaging material to drive a screw 435 on a screw lifter to move up and down, and further driving a first nip roller 412 and a second nip roller 422 to move up and down through the screw 435, so that the distances between the first nip roller 412 and a second feeding guide roller 411 and between the second nip roller 422 and a second feeding guide roller 421 are matched with the thickness of the packaging material; adjusting the distance between the two limiting assemblies 52 on the feeding platform according to the width of the packaging material so as to enable the spacing to be matched with the thickness of the packaging material; and adjusting the distance between the groups of vertical cutting circular knives according to the cutting width of the target packaging material, wherein the adjustment of the parameters is input through an intelligent system. After the parameters are adjusted, the packaging material is put on the feeding platform, the first power assembly 44 and the second power assembly 341 are started to cut the packaging material, and finally the cut packaging material is subjected to blanking operation manually through the discharging platform.

The present invention has been further described with reference to specific embodiments, but it should be understood that the specific description herein should not be construed as limiting the spirit and scope of the present invention, and that various modifications to the above-described embodiments, which would occur to persons skilled in the art after reading this specification, are within the scope of the present invention.

Claims (10)

1. The utility model provides a horizontal vertical cutting machine of double-deck circular knife which characterized in that, includes the frame, install vertical cutting mechanism, horizontal cutting mechanism and pay-off deflector roll mechanism in the frame, wherein:

the feeding guide roller mechanism comprises a first feeding guide roller assembly arranged at the feeding end and a second feeding guide roller assembly arranged at the discharging end, the vertical cutting mechanism is arranged between the first feeding guide roller assembly and the second feeding guide roller assembly, and the transverse cutting mechanism is arranged on one side of the discharging end of the second feeding guide roller assembly;

the vertical cutting mechanism comprises a first vertical cutter shaft and a second vertical cutter shaft which are arranged in parallel from top to bottom, and a plurality of groups of vertical cutting circular cutters which are arranged in a one-to-one correspondence from top to bottom are arranged on the first vertical cutter shaft and the second vertical cutter shaft.

2. The double-layer circular knife transverse and vertical slitting machine according to claim 1, wherein the transverse cutting mechanism comprises a first transverse knife shaft and a second transverse knife shaft which are arranged up and down, a group of transverse cutting circular knives which correspond up and down are arranged on the first transverse knife shaft and the second transverse knife shaft, and the transverse cutting circular knives are driven by the transverse cutting displacement assembly to move transversely along the axial direction of the first transverse knife shaft and the second transverse knife shaft.

3. The double-layer circular knife transverse and vertical splitting machine according to claim 1, wherein the first vertical knife shaft and the second vertical knife shaft are arranged along the feeding direction in a staggered manner, so that the vertically-cutting circular knives which correspond up and down are arranged in a separated manner.

4. The double-layer circular knife transverse and vertical splitting machine according to claim 1, characterized in that circular knife press rings are arranged on both sides of the vertical cutting circular knives on the first vertical knife shaft and the second vertical knife shaft, first key grooves are arranged on the circular knife press rings, second key grooves corresponding to the first key grooves are arranged on the first vertical knife shaft and the second vertical knife shaft, and bar-shaped keys are arranged in the first key grooves and the second key grooves corresponding to the first key grooves.

5. The double-layer circular knife transverse and vertical splitting machine according to claim 1, wherein each vertical cutting circular knife on the second vertical knife shaft is matched with a knife protection assembly, semicircular guide rails are fixed on two sides of the second vertical knife shaft, sliding blocks matched with the semicircular guide rails are arranged on two sides of the knife protection assemblies, and the vertical cutting circular knife moves axially to drive the knife protection assemblies to move axially along the semicircular guide rails.

6. The double-layer circular knife transverse and vertical splitting machine according to claim 5, wherein the knife protection assembly comprises a first transition plate and a second transition plate which are respectively arranged on two sides of the vertical circular knife on the second vertical knife shaft, the upper end faces of the first transition plate and the second transition plate are flush, two first bearings are arranged at the lower end of the first transition plate at intervals, two second bearings are arranged at the lower end of the second transition plate at intervals, the second bearings and the first bearings are oppositely arranged, and the vertical circular knife is positioned between the first bearings and the second bearings.

7. The double-layer circular knife transverse and vertical slitting machine according to claim 2 wherein the transverse cutting displacement assembly comprises a second power assembly disposed below the frame, the output end of the second power assembly is in transmission connection with a first vertical shaft, the first vertical shaft is fixedly sleeved with two first synchronizing wheels at intervals from top to bottom, two second synchronizing wheel assemblies opposite to the first synchronizing wheels are disposed on one side of the frame transversely opposite to the second power assembly, each second synchronizing wheel assembly comprises a second synchronizing wheel, the first synchronizing wheel and the second synchronizing wheel on the same horizontal plane form a group of synchronizing wheels, two groups of synchronizing wheels are sleeved with belts respectively, and the upper and lower circular knives are fixedly connected with the upper and lower belts respectively through a connecting assembly.

8. The double-layer circular knife transverse and vertical splitting machine according to claim 7, wherein the connecting assembly comprises a linear bearing sleeved on the first transverse knife shaft or the second transverse knife shaft and a transverse knife motor mounting plate fixedly connected with the linear bearing, a transverse knife motor is arranged on the transverse knife motor mounting plate, and an output shaft of the transverse knife motor is fixedly connected with the transverse cutting circular knife.

9. The double-layer circular knife transverse and vertical splitting machine according to claim 1, wherein the first feeding guide roller assembly comprises a first feeding guide roller and a first pressing roller positioned above the first feeding guide roller;

the second feeding guide roller assembly comprises a second feeding guide roller and a second pressing roller positioned above the second feeding guide roller;

the first feeding guide roller and the second feeding guide roller are arranged on the same horizontal plane;

the first material pressing roller and the second material pressing roller are arranged on the same horizontal plane, and the first material pressing roller and the second material pressing roller are driven by the lifting adjusting mechanism to move up and down in a reciprocating mode.

10. The double-layer circular knife transverse and vertical splitting machine according to claim 9, wherein the lifting adjusting mechanism comprises mounting brackets crossing two sides of the machine frame, a first speed reducer fixed in the middle of the mounting brackets, and a first motor in transmission connection with the input end of the first speed reducer;

two output shafts extend from two ends of the first speed reducer in the transverse direction respectively, the tail ends of the two output shafts are connected with a transmission shaft in a transmission mode respectively, and the tail ends of the two transmission shafts are connected with two ends of the first material pressing rod and two ends of the second material pressing rod through lifting assemblies.

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