CN212978440U - Angle-adjustable transverse cutting equipment - Google Patents

Abstract

The utility model discloses an angularly adjustable crosscut equipment, including work or material rest module, blowing module, pay-off module and rotatory crosscut module, the blowing module includes the blowing device, the pay-off module includes material feeding unit, rotatory crosscut module includes the rotary supporting seat and sets up the slewing bearing device on the rotary supporting seat, install the rotary mounting frame on the slewing bearing device, install rotary drive device, crosscut device and cutter drive arrangement on the rotary mounting frame, the crosscut device includes the crosscut subassembly, cutter drive arrangement can drive the movement of crosscut subassembly in order to realize the crosscut function, rotary drive arrangement can drive the rotation of rotary mounting frame on the slewing bearing device. The angle-adjustable transverse cutting equipment has the advantages of simple structure, high application flexibility, strong universality, labor cost saving, production efficiency improvement, high automation degree and the like, which are not possessed by the prior art.

Description

Angle-adjustable transverse cutting equipment

Technical Field

The utility model relates to a sheet cutting process equipment, especially an angularly adjustable crosscut equipment.

Background

For some sheet materials, such as asbestos paper, the sheet material needs to be cut during the production, application, etc., and for some special applications, the notches of the sheet material need to be chamfered.

The existing sheet cutting equipment has the defects of generally complex structure, large volume and high equipment cost. And the installation position of the cutter is relatively fixed, so that the cutter can only meet the requirement of an inclined notch. When the inclination of the cutting notch of the sheet needs to be adjusted, a large amount of manpower and material resources need to be consumed to modify the equipment, the universality is poor, the application flexibility is poor, the processing cost is greatly increased, the production efficiency is also seriously reduced, and the requirement for efficient automatic production is not facilitated.

In view of the above, the present invention provides a new technical solution to solve the existing technical drawbacks.

SUMMERY OF THE UTILITY MODEL

In order to overcome the not enough of prior art, the utility model provides an angularly adjustable crosscut equipment has solved the technical defect such as the structure complicacy that prior art exists, implementation cost height, commonality are poor, use degree of automation is low, production efficiency hangs down.

The utility model provides a technical scheme that its technical problem adopted is:

the utility model provides an angularly adjustable crosscut equipment, includes work or material rest module, blowing module, pay-off module and rotatory crosscut module, the blowing module includes the blowing device, the pay-off module includes material feeding unit, rotatory crosscut module includes the rotary supporting seat and sets up the slewing bearing device on the rotary supporting seat, install rotatory mounting bracket on the slewing bearing device, install rotary drive device, crosscut device and cutter drive arrangement on the rotatory mounting bracket, the crosscut device includes the crosscut subassembly, cutter drive arrangement can drive the movement of crosscut subassembly in order to realize the crosscut function, rotary drive device can drive the rotation of rotary mounting bracket on slewing bearing device.

As an improvement of the above technical scheme, the transverse cutting device includes a transverse cutting device bottom plate fixedly mounted on the rotary mounting frame, and two transverse cutting device end plates respectively disposed at two ends of the transverse cutting device bottom plate, an upper cutter sliding slot is disposed on the transverse cutting device end plate, an upper cutter sliding block capable of sliding in the upper cutter sliding slot is disposed in the upper cutter sliding slot, an upper cutter mounting seat is fixedly disposed between the two upper cutter sliding blocks, a lower cutter mounting seat is disposed on the transverse cutting device bottom plate, a lower transverse cutter and an upper transverse cutter are respectively and fixedly mounted on the lower cutter mounting seat and the upper cutter mounting seat, and the lower transverse cutter and the upper transverse cutter are matched to form the transverse cutting assembly.

As a further improvement of the above technical scheme, the transverse cutting device further comprises a first guide shaft and a second guide shaft, a first chute is arranged on the transverse cutting device end plate, a first sliding block and a second sliding block which can slide in the first chute are arranged in the first chute, a top limiting plate is arranged at the top of the transverse cutting device end plate, two ends of the first guide shaft are arranged on the first sliding block, two ends of the second guide shaft are arranged on the second sliding block, a first fine adjustment screw rod is arranged between the first sliding block and the top limiting plate, and a second fine adjustment screw rod is arranged between the second sliding block and the top limiting plate.

As a further improvement of the above technical scheme, the first guide shaft and the second guide shaft are both provided with mounting notch surfaces, the mounting notch surface of the first guide shaft is provided with a rotary cutting transition panel, and the mounting notch surface of the second guide shaft is provided with a rotary cutting pressure plate;

the inner side of the upper cutter sliding block is fixedly connected with a cutter sliding block connecting rod, an upper cutter limiting rod is arranged on the side portion of the cutter sliding block connecting rod, an upper cutter limiting plate is fixedly arranged on the side portion of the upper cutter, a limiting groove is formed in the upper cutter limiting plate, and the free end of the upper cutter limiting rod extends into the limiting groove of the upper cutter limiting plate and moves within the limiting range of the limiting groove.

As a further improvement of the technical proposal, the cutter driving device comprises a cutter driving motor fixedly arranged on the rotary mounting frame, a first driving device shaft and a second driving device shaft, the output end of the cutter driving motor is provided with a first driving belt pulley, a first driven belt pulley and a driving device eccentric wheel are arranged on a first shaft of the driving device, a driving belt is wound between the first driving belt wheel and the first driven belt wheel, an eccentric wheel sleeve is sleeved on the outer edge of the eccentric wheel of the driving device, a first connecting rod is arranged on the eccentric wheel sleeve, a first swing rod and a second swing rod are fixedly arranged on a second shaft of the driving device, the free end of the first connecting rod is hinged to the free end of the first swing rod, the free end of the second swing rod is hinged to the second connecting rod, and the free end of the second connecting rod is hinged to the lower end of the upper cutter sliding block.

As a further improvement of the above technical solution, the rotary driving device includes an angle adjusting rotary shaft and an angle adjusting vertical installation shaft which are installed on the rotary installation frame, the angle adjusting rotary shaft is provided with a driving bevel gear, the upper end of the angle adjusting vertical installation shaft is provided with a driven bevel gear, the driving bevel gear is engaged with the driven bevel gear, the lower end of the angle adjusting vertical installation shaft is provided with a rotary driving gear, a free ring of the slewing bearing device is provided with internal teeth which are engaged with the rotary driving gear, and the outer end of the angle adjusting rotary shaft is provided with an angle adjusting hand wheel.

As a further improvement of the above technical solution, the angle adjusting rotary shaft is mounted on the rotary mounting frame through a rotary shaft bearing, and the angle adjusting vertical mounting shaft is mounted on the rotary mounting frame through a vertical mounting shaft sleeve and a shaft sleeve fixing plate.

As a further improvement of the technical scheme, an angle graduated scale is arranged on the rotary supporting seat, and a rotating angle indicating needle is arranged on the rotary mounting frame.

As a further improvement of the above technical solution, the feeding module includes a feeding module mounting bracket, a feeding module driving motor and a pressing device, which are disposed on the feeding module mounting bracket, and a feeding module upper panel and a feeding module transition plate, wherein the feeding module driving motor is used for driving the feeding device to operate, and the feeding device is mounted on the feeding module mounting bracket.

As a further improvement of the above technical scheme, the feeding device comprises two feeding device side plates fixed on a feeding module mounting frame, and a first feeding rubber roll and a second feeding rubber roll which are arranged between the two feeding device side plates, wherein a feeding rubber roll chute is arranged on the feeding device side plates, a feeding rubber roll sliding block capable of sliding in the feeding rubber roll chute is arranged in the feeding rubber roll chute, two ends of the first feeding rubber roll are arranged on the feeding device side plates through bearings, two ends of the second feeding rubber roll are arranged on the feeding rubber roll sliding block through bearings, a rubber roll driving gear is arranged on the first feeding rubber roll, a rubber roll driven gear meshed with the rubber roll driving gear is arranged on the second feeding rubber roll, a feeding transmission device is arranged between the output end of the feeding module driving motor and one end of the first feeding rubber roll, a feeding device top cover plate is arranged at the top of the feeding device side plate, and a feeding rubber roll fine adjustment screw rod is arranged between the feeding device top cover plate and the feeding rubber roll sliding block;

as a further improvement of the above technical scheme, the feeding transmission device comprises a feeding driving wheel installed on an output shaft of a driving motor of the feeding module, a feeding driven wheel arranged at one end of the first feeding rubber roll, and a feeding transmission belt wound between the feeding driving wheel and the feeding driven wheel, and a rubber roll slide block connecting rod is arranged between the two feeding rubber roll slide blocks.

As a further improvement of the above technical solution, a first guiding shaft slider and a second guiding shaft slider which can slide up and down along the side edges of the side plates of the feeding device are arranged along the side edges of the side plates of the feeding device, a first feeding guiding shaft is arranged between the first guiding shaft sliders on the two side plates of the feeding device, a second feeding guiding shaft is arranged between the second guiding shaft sliders on the two side plates of the feeding device, a plurality of first guiding tension springs are wound between the first feeding guiding shaft and the first feeding rubber roll, a plurality of second guiding tension springs are wound between the second feeding guiding shaft and the second feeding rubber roll, limiting waist-shaped holes are respectively arranged on the first guiding shaft slider and the second guiding shaft slider, the first guiding shaft slider and the second guiding shaft slider are installed on the side plates of the feeding device by passing through the limiting waist-shaped holes through screws or bolts, a first guiding shaft adjusting screw is arranged between the first guiding shaft slider and the top cover plate of the feeding device, and a second adjusting screw rod of the guide shaft is arranged between the second guide shaft sliding block and the top cover plate of the feeding device.

As a further improvement of the above technical scheme, press device is including fixing the press device installation axle between two material feeding unit curb plates, the first armed lever of press device is installed through the press device go-between to the press device installation axle, press device second armed lever is installed to the free end of the first armed lever of press device, is provided with swing angle adjusting device between first armed lever of press device and the press device second armed lever, the free end of press device second armed lever is provided with the press device roller shaft, be provided with the solid fixed ring of press device torsional spring on the press device roller shaft, be provided with the solid fixed ring of press device rubber wheel mounting panel on the solid fixed ring of press device torsional spring, install the pressure material rubber wheel on the solid fixed ring of press device rubber wheel mounting panel.

As a further improvement of the technical scheme, the discharging module comprises a discharging module mounting frame, a discharging module driving motor, a plurality of material passing rollers and a discharging oscillating bar device, wherein the discharging module driving motor, the plurality of material passing rollers and the discharging oscillating bar device are arranged on the discharging module mounting frame, and the discharging device is arranged on the discharging module mounting frame.

As a further improvement of the technical proposal, the emptying device comprises two emptying device side plates fixedly arranged on an emptying module mounting frame, and a first emptying roller and a second emptying roller which are arranged between the two emptying device side plates, wherein the emptying device side plates are provided with roller slide block mounting grooves, emptying roller slide blocks capable of sliding in the roller slide block mounting grooves are arranged in the roller slide block mounting grooves, the side parts of the emptying device side plates are provided with side part limiting plates, the two ends of the first emptying roller are arranged on the emptying device side plates through bearings, the two ends of the second emptying roller are arranged on the emptying roller slide blocks through bearings, an emptying roller adjusting screw rod is arranged between the emptying roller slide blocks and the side part limiting plates, the output end of an emptying module driving motor is provided with an emptying driving wheel, one end of the first emptying roller is provided with an emptying driven driving, a discharging driving belt is arranged between the discharging driving wheel and the discharging driven driving wheel, the discharging module driving motor can drive the first discharging roller to rotate through the discharging driving wheel, the discharging driven driving wheel and the discharging driving belt, and a discharging roller slider connecting rod is arranged between the two discharging roller sliders;

the feeding swing rod device comprises a swing rod main shaft arranged on a feeding module mounting frame, the swing rod main shaft is provided with a swing rod beam through a swing rod shaft sleeve, and the swing rod beam is provided with a plurality of swing rod rollers.

The utility model has the advantages that: the utility model provides an angularly adjustable crosscut equipment, this kind of angularly adjustable crosscut equipment is provided with slewing bearing device, rotary mounting frame, rotary driving device, crosscut device and cutter drive arrangement, can drive rotary mounting frame rotatory on slewing bearing device through rotary driving device, and then can drive the crosscut device and rotate to suitable angle, can adapt to different slopes and cut the demand, it is poor to have the commonality, use the advantage that the flexibility is high, in the time of in-service implementation, can avoid the dismantlement adjustment process among the existing equipment, greatly save time and manpower, and the production efficiency is improved, help promoting the degree of automation of manufacturing enterprise.

In conclusion, the angle-adjustable transverse cutting equipment overcomes the technical defects of complex structure, high implementation cost, poor universality, low use automation degree, low production efficiency and the like in the prior art.

Drawings

The present invention will be further explained with reference to the drawings and examples.

FIG. 1 is a schematic assembly view of the present invention;

fig. 2 is an assembly schematic view of a rotary transverse cutting module according to the present invention;

fig. 3 is another assembly view of the rotary transverse cutting module according to the present invention;

fig. 4 is an assembly schematic view of the crosscutting apparatus of the present invention;

fig. 5 is another schematic assembly view of the cross cutting device of the present invention;

FIG. 6 is a cross-sectional view taken along line A-A of FIG. 5;

fig. 7 is an assembly schematic view of the cutter driving device of the present invention;

fig. 8 is an assembly view of the rotary drive device of the present invention;

fig. 9 is an assembly view of the feeding module of the present invention;

fig. 10 is an assembly view of the feeding device according to the present invention;

fig. 11 is another assembly view of the feeding device of the present invention;

FIG. 12 is a sectional view taken in the direction B-B in FIG. 11;

fig. 13 is an assembly schematic view of the middle pressing device of the present invention;

fig. 14 is an assembly view of the discharging module of the present invention;

fig. 15 is an assembly schematic view of the discharging device of the present invention;

fig. 16 is an assembly schematic diagram of the discharging swing rod device of the present invention.

Detailed Description

The conception, the specific structure, and the technical effects produced by the present invention will be clearly and completely described below in conjunction with the embodiments and the accompanying drawings to fully understand the objects, the features, and the effects of the present invention. Obviously, the described embodiments are only a part of the embodiments of the present invention, and not all embodiments, and other embodiments obtained by those skilled in the art without inventive labor based on the embodiments of the present invention all belong to the protection scope of the present invention. In addition, all the connection/connection relations referred to in the patent do not mean that the components are directly connected, but mean that a better connection structure can be formed by adding or reducing connection auxiliary components according to specific implementation conditions. The technical features of the present invention can be combined interactively without conflicting with each other, as shown in fig. 1 to 16.

The utility model provides an angularly adjustable crosscut equipment, includes work or material rest module 9, blowing module 7, pay-off module 5 and rotatory crosscut module, blowing module 7 includes blowing device 8, pay-off module 5 includes material feeding unit 6, rotatory crosscut module includes rotatory supporting seat 11 and sets up slewing bearing device 12 on rotatory supporting seat 11, install rotary mounting frame 13 on slewing bearing device 12, install rotary driving device 2, crosscut device 3 and cutter drive arrangement 4 on the rotary mounting frame 13, crosscut device 3 includes the crosscut knife subassembly, cutter drive arrangement 4 can drive the movement of crosscut subassembly in order to realize the crosscut function, rotary driving device 2 can drive rotary mounting frame 13 and rotate on slewing bearing device 12.

The automatic production line further comprises a control electric box 90, wherein the control electric box 90 is used for controlling the modules to cooperate and operate so as to realize automatic production.

Detailed implementation the utility model discloses in the time, material coiled material 91 unreels in work or material rest module 9, and the material that unreels gets into blowing device 8 in blowing module 7 and the blowing module, and further, the material that comes out from blowing module 7 gets into in feeding module 5 and through blowing device 6's blowing effect, and final slice material realizes the crosscut operation in entering into rotatory crosscut module.

The material 10 to be obliquely cut enters the rotary transverse cutting module, the rotary driving device 2 in the rotary transverse cutting module can drive the rotary mounting frame 13, the transverse cutting device 3 and the cutter driving device 4 to rotate along the rotating central shaft of the slewing bearing device 12, and then the proper cutting angle can be adjusted.

Preferably, the transverse cutting device 3 includes a transverse cutting device bottom plate 311 fixedly mounted on the rotary mounting frame 13 and two transverse cutting device end plates 312 respectively disposed at two ends of the transverse cutting device bottom plate 311, an upper cutter sliding slot 321 is disposed on the transverse cutting device end plate 312, an upper cutter sliding block 322 capable of sliding in the upper cutter sliding slot 321 is disposed in the upper cutter sliding slot 321, an upper cutter mounting seat 334 is fixedly disposed between the two upper cutter sliding blocks 322, a lower cutter mounting seat 333 is disposed on the transverse cutting device bottom plate 311, a lower transverse cutter 331 and an upper transverse cutter 332 are respectively fixedly mounted on the lower cutter mounting seat 333 and the upper cutter mounting seat 334, and the lower transverse cutter 331 and the upper transverse cutter 332 cooperate to form the transverse cutter assembly.

The cutter driving device 4 drives the upper cutter sliding block 322 to slide in the upper cutter sliding groove 321, so as to control the upper transverse cutter 332 to slide up and down, and the upper transverse cutter 332 is matched with the lower transverse cutter 331 in the up-and-down moving process to realize the cutting function.

Preferably, the transverse cutting device 3 further includes a first guide shaft 341 and a second guide shaft 342, a first sliding groove 313 is disposed on the transverse cutting device end plate 312, a first sliding block 314 and a second sliding block 315 which can slide in the first sliding groove 313 are disposed in the first sliding groove 313, a top limiting plate 316 is disposed at the top of the transverse cutting device end plate 312, two ends of the first guide shaft 341 are mounted on the first sliding block 314, two ends of the second guide shaft 342 are mounted on the second sliding block 315, a first fine adjustment screw 317 is disposed between the first sliding block 314 and the top limiting plate 316, and a second fine adjustment screw 318 is disposed between the second sliding block 315 and the top limiting plate 316.

Preferably, the first guide shaft 341 and the second guide shaft 342 are both provided with an installation notch surface, the installation notch surface of the first guide shaft 341 is provided with a rotary cutting transition panel 351, and the installation notch surface of the second guide shaft 342 is provided with a rotary cutting pressure plate 352;

the inner side of the upper cutter slider 322 is fixedly connected with a cutter slider connecting rod 323, the lateral part of the cutter slider connecting rod 323 is provided with an upper cutter limiting rod 324, the lateral part of the upper transverse cutter 332 is fixedly provided with an upper cutter limiting plate 325, the upper cutter limiting plate 325 is provided with a limiting groove, and the free end of the upper cutter limiting rod 324 extends into the limiting groove of the upper cutter limiting plate 325 and moves within the limiting range of the limiting groove.

Preferably, the cutter driving device 4 comprises a cutter driving motor 41 fixedly mounted on the rotary mounting frame 13, a driving device first shaft 42, a driving device second shaft 43, the output end of the cutter driving motor 41 is provided with a first driving pulley 411, the driving device first shaft 42 is provided with a first driven pulley 421 and a driving device eccentric wheel 422, a driving belt is wound between the first driving pulley 411 and the first driven pulley 421, an eccentric wheel sleeve 423 is sleeved on the outer edge of the driving device eccentric wheel 422, a first connecting rod 44 is arranged on the eccentric wheel sleeve 423, a first swing link 431 and a second swing link 432 are fixedly arranged on the second shaft 43 of the driving device, the free end of the first link 44 is hinged to the free end of the first swing link 431, the free end of the second swing link 432 is hinged to the second link 45, and the free end of the second link 45 is hinged to the lower end of the upper cutter slider 322.

The cutter driving motor 41 drives the driving device first shaft 42 to rotate through the first driving belt pulley 411, the first driven belt pulley 421 and the driving belt, the driving device first shaft 42 drives the driving device second shaft 43 to rotate back and forth through the driving device eccentric wheel 422, the eccentric wheel sleeve 423 and the first connecting rod 44-level first swing rod 431, the driving device second shaft 43 drives the upper cutter sliding block 322 to slide in the upper cutter sliding groove 321 through the second swing rod 432-level second connecting rod 45, and the transverse cutter assembly is further driven to realize the cutting function.

Preferably, the rotary driving device 2 includes an angle adjusting rotary shaft 21 and an angle adjusting vertical installation shaft 22 installed on the rotary installation frame 13, a driving bevel gear 23 is installed on the angle adjusting rotary shaft 21, a driven bevel gear 24 is installed at an upper end portion of the angle adjusting vertical installation shaft 22, the driving bevel gear 23 is engaged with the driven bevel gear 24, a rotary driving gear 25 is installed at a lower end of the angle adjusting vertical installation shaft 22, an inner tooth engaged with the rotary driving gear 25 is installed at a free ring of the slewing bearing device 12, and an angle adjusting handwheel 26 is installed at an outer end of the angle adjusting rotary shaft 21.

Preferably, the angle adjusting rotary shaft 21 is mounted on the rotary mounting bracket 13 through a rotary shaft bearing 211, and the angle adjusting vertical mounting shaft 22 is mounted on the rotary mounting bracket 13 through a vertical mounting shaft sleeve 221 and a sleeve fixing plate 222.

Preferably, the angle scale 111 is arranged on the rotary support 11, the rotating angle pointer 131 is arranged on the rotary mounting frame 13, and the rotating angle can be conveniently adjusted through the angle scale 111 and the rotating angle pointer 131.

The cutter driving device 4 drives the transverse cutter assembly in the transverse cutter device 3 to realize the transverse cutting function.

Preferably, the feeding module 5 includes a feeding module mounting frame 51, a feeding module driving motor and a pressing device 52 which are arranged on the feeding module mounting frame 51, a feeding module upper panel 53, and a feeding module transition plate 54, the feeding module driving motor is used for driving the feeding device 6 to operate, and the feeding device 6 is mounted on the feeding module mounting frame 51.

Preferably, the feeding device 6 comprises two feeding device side plates 61 fixed on the feeding module mounting frame 51, and a first feeding rubber roller 621 and a second feeding rubber roller 622 arranged between the two feeding device side plates 61, the feeding device side plates 61 are provided with feeding rubber roller chutes 611, the feeding rubber roller chutes 611 are internally provided with feeding rubber roller sliders 612 capable of sliding in the feeding rubber roller chutes 611, two ends of the first feeding rubber roller 621 are mounted on the feeding device side plates 61 through bearings, two ends of the second feeding rubber roller 622 are mounted on the feeding rubber roller sliders 612 through bearings, the first feeding rubber roller 621 is provided with a rubber roller driving gear 631, the second feeding rubber roller 622 is provided with a rubber roller driven gear 632 mutually engaged with the rubber roller driving gear 631, and a feeding transmission device is arranged between an output end of the feeding module driving motor and one end of the first feeding rubber roller 621, a feeding device top cover plate 613 is arranged at the top of the feeding device side plate 61, and a feeding rubber roll fine adjustment screw is arranged between the feeding device top cover plate 613 and the feeding rubber roll sliding block 612;

preferably, the feeding transmission device comprises a feeding driving wheel installed on an output shaft of a driving motor of the feeding module, a feeding driven wheel arranged at one end of the first feeding rubber roll 621, and a feeding transmission belt wound between the feeding driving wheel and the feeding driven wheel, and a rubber roll slide block connecting rod 614 is arranged between the two feeding rubber roll slide blocks 612.

Preferably, a first guide shaft slider 641 and a second guide shaft slider 642 which can slide up and down along the side edges of the side plates 61 are arranged on the side edges of the side plates 61, a first feeding guide shaft 651 is arranged between the first guide shaft sliders 641 on the two side plates 61, a second feeding guide shaft 652 is arranged between the second guide shaft sliders 642 on the two side plates 61, a plurality of first guide tension springs 661 are wound between the first feeding guide shaft 651 and the first feeding rubber roll 621, a plurality of second guide tension springs 662 are wound between the second feeding guide shaft 652 and the second feeding rubber roll 622, limiting waist-shaped holes are respectively formed in the first guide shaft slider 641 and the second guide shaft slider 642, the first guide shaft slider 641 and the second guide shaft slider 642 are installed on the side plates 61 by penetrating the limiting waist-shaped holes through screws or bolts, and a first guide shaft adjusting screw rod 642 is arranged between the first guide shaft slider 641 and the top cover plate 613 of the feeding device 671 and a second adjusting screw 672 of the guide shaft is arranged between the second guide shaft slide block 642 and the top cover plate 613 of the feeding device.

Preferably, the pressing device 52 includes a pressing device mounting shaft 521 fixed between the two feeding device side plates 61, the pressing device mounting shaft 521 is provided with a first arm lever 523 of the pressing device through a pressing device connecting ring 522, a second arm lever 524 of the pressing device is mounted at a free end of the first arm lever 523 of the pressing device, a swing angle adjusting device is provided between the first arm lever 523 of the pressing device and the second arm lever 524 of the pressing device, a roller shaft 525 of the pressing device is provided at a free end of the second arm lever 524 of the pressing device, a fixing ring 526 of a torsion spring of the pressing device is provided on the roller shaft 525, a rubber wheel mounting plate 527 of the pressing device is provided on the fixing ring 526 of the torsion spring of the pressing device, and a rubber wheel 528 of the pressing device is mounted on the rubber wheel mounting plate 527 of the pressing device.

Preferably, the discharging module 7 includes a discharging module mounting frame 71, a discharging module driving motor 72, a plurality of material passing rollers 73, and a discharging swing rod device 74, which are disposed on the discharging module mounting frame 71, and the discharging device 8 is mounted on the discharging module mounting frame 71.

Preferably, the emptying device 8 comprises two emptying device side plates 81 fixedly mounted on the emptying module mounting frame 71, and a first emptying roller 821 and a second emptying roller 822 mounted between the two emptying device side plates 81, wherein a roller slide block mounting groove 811 is arranged on the emptying device side plate 81, an emptying roller slide block 812 capable of sliding in the roller slide block mounting groove 811 is arranged in the roller slide block mounting groove 811, a side limiting plate 813 is arranged at the side part of the emptying device side plate 81, two ends of the first emptying roller 821 are mounted on the emptying device side plate 81 through bearings, two ends of the second emptying roller 822 are mounted on the emptying roller slide block 812 through bearings, an emptying roller adjusting screw is arranged between the emptying roller slide block 812 and the side limiting plate 813, and an emptying driving wheel is arranged at the output end of the emptying module driving motor 72, a discharge driven driving wheel is arranged at one end of the first discharge roller 821, a discharge driving belt is arranged between the discharge driving wheel and the discharge driven driving wheel, the discharge module driving motor 72 can drive the first discharge roller 821 to rotate through the discharge driving wheel, the discharge driven driving wheel and the discharge driving belt, and a discharge roller slider connecting rod 814 is arranged between the two discharge roller sliders 812;

preferably, the discharging swing rod device 74 includes a swing rod main shaft 741 disposed on the discharging module mounting frame 71, the swing rod main shaft 741 is provided with a swing rod beam 743 through a swing rod shaft sleeve 742, and the swing rod beam 743 is provided with a plurality of swing rod rollers 744.

While the preferred embodiments of the present invention have been described, the present invention is not limited to the above embodiments, and those skilled in the art can make various equivalent modifications or substitutions without departing from the spirit of the present invention, and such equivalent modifications or substitutions are intended to be included within the scope of the present invention as defined by the appended claims.

Claims (10)

1. An adjustable angle crosscutting apparatus, characterized by: comprises a material rack module (9), a material placing module (7), a material feeding module (5) and a rotary transverse cutting module, the discharging module (7) comprises a discharging device (8), the feeding module (5) comprises a feeding device (6), the rotary transverse cutting module comprises a rotary supporting seat (11) and a rotary supporting device (12) arranged on the rotary supporting seat (11), a rotary mounting frame (13) is arranged on the slewing bearing device (12), a rotary driving device (2), a transverse cutting device (3) and a cutter driving device (4) are arranged on the rotary mounting frame (13), the transverse cutting device (3) comprises a transverse cutting knife component, the cutting knife driving device (4) can drive the transverse cutting knife component to move so as to realize the transverse cutting function, the rotary driving device (2) can drive the rotary mounting frame (13) to rotate on the slewing bearing device (12).

2. An adjustable angle crosscutting apparatus as claimed in claim 1, characterised in that: the transverse cutting device (3) comprises a transverse cutting device base plate (311) fixedly mounted on a rotary mounting frame (13) and two transverse cutting device end plates (312) respectively arranged at two ends of the transverse cutting device base plate (311), an upper cutter sliding groove (321) is formed in each transverse cutting device end plate (312), an upper cutter sliding block (322) capable of sliding in each upper cutter sliding groove (321) is arranged in each upper cutter sliding groove (321), an upper cutter mounting seat (334) is fixedly arranged between the two upper cutter sliding blocks (322), a lower cutter mounting seat (333) is arranged on each transverse cutting device base plate (311), a lower transverse cutter (331) and an upper transverse cutter (332) are respectively and fixedly mounted on each lower cutter mounting seat (333) and each upper cutter mounting seat (334), and the lower transverse cutter (331) and the upper transverse cutter (332) are matched to form the transverse cutting assembly.

3. An adjustable angle crosscutting apparatus according to claim 2, characterised in that: the transverse cutting device (3) further comprises a first guide shaft (341) and a second guide shaft (342), a first sliding groove (313) is formed in an end plate (312) of the transverse cutting device, a first sliding block (314) and a second sliding block (315) which can slide in the first sliding groove (313) are arranged in the first sliding groove (313), a top limiting plate (316) is arranged at the top of the end plate (312) of the transverse cutting device, two ends of the first guide shaft (341) are installed on the first sliding block (314), two ends of the second guide shaft (342) are installed on the second sliding block (315), a first fine adjustment screw (317) is arranged between the first sliding block (314) and the top limiting plate (316), and a second fine adjustment screw (318) is arranged between the second sliding block (315) and the top limiting plate (316);

mounting notch surfaces are arranged on the first guide shaft (341) and the second guide shaft (342), a rotary cutting transition panel (351) is mounted on the mounting notch surface of the first guide shaft (341), and a rotary cutting pressure plate (352) is mounted on the mounting notch surface of the second guide shaft (342);

the inner side of the upper cutter sliding block (322) is fixedly connected with a cutter sliding block connecting rod (323), the side part of the cutter sliding block connecting rod (323) is provided with an upper cutter limiting rod (324), the side part of the upper transverse cutter (332) is fixedly provided with an upper cutter limiting plate (325), the upper cutter limiting plate (325) is provided with a limiting groove, and the free end of the upper cutter limiting rod (324) extends into the limiting groove of the upper cutter limiting plate (325) and moves within the limiting range of the limiting groove.

4. An adjustable angle crosscutting apparatus according to claim 2, characterised in that: the cutting knife driving device (4) comprises a cutting knife driving motor (41), a driving device first shaft (42) and a driving device second shaft (43) which are fixedly installed on a rotary installation frame (13), a first driving belt pulley (411) is arranged at the output end of the cutting knife driving motor (41), a first driven belt pulley (421) and a driving device eccentric wheel (422) are arranged on the driving device first shaft (42), a driving belt is wound between the first driving belt pulley (411) and the first driven belt pulley (421), an eccentric wheel sleeve (423) is sleeved on the outer edge of the driving device eccentric wheel (422), a first connecting rod (44) is arranged on the eccentric wheel sleeve (423), a first swing rod (431) and a second swing rod (432) are fixedly arranged on the driving device second shaft (43), and the free end of the first connecting rod (44) is hinged to the free end of the first swing rod (431), the free end of the second swing rod (432) is hinged to a second connecting rod (45), and the free end of the second connecting rod (45) is hinged to the lower end of the upper cutter sliding block (322).

5. An adjustable angle crosscutting apparatus as claimed in claim 1, characterised in that: the rotary driving device (2) comprises an angle adjusting rotating shaft (21) and an angle adjusting vertical mounting shaft (22) which are mounted on a rotary mounting frame (13), a driving bevel gear (23) is arranged on the angle adjusting rotating shaft (21), a driven bevel gear (24) is arranged at the upper end of the angle adjusting vertical mounting shaft (22), the driving bevel gear (23) is meshed with the driven bevel gear (24), a rotary driving gear (25) is arranged at the lower end of the angle adjusting vertical mounting shaft (22), a free ring of the slewing bearing device (12) is provided with inner teeth meshed with the rotary driving gear (25), and an angle adjusting hand wheel (26) is arranged at the outer end of the angle adjusting rotating shaft (21);

the angle adjusting rotating shaft (21) is mounted on the rotating mounting frame (13) through a rotating shaft bearing (211), and the angle adjusting vertical mounting shaft (22) is mounted on the rotating mounting frame (13) through a vertical mounting shaft sleeve (221) and a sleeve fixing plate (222);

the rotary support base (11) is provided with an angle scale (111), and the rotary mounting frame (13) is provided with a rotating angle indicating needle (131).

6. An adjustable angle crosscutting apparatus as claimed in claim 1, characterised in that: pay-off module (5) are including pay-off module mounting bracket (51) and pay-off module driving motor, press device (52) of setting on pay-off module mounting bracket (51), pay-off module top panel (53), pay-off module cross cab apron (54), pay-off module driving motor is used for driving material feeding unit (6) operation, material feeding unit (6) are installed on pay-off module mounting bracket (51).

7. An adjustable angle crosscutting apparatus according to claim 6, characterised in that: the feeding device (6) comprises two feeding device side plates (61) fixed on a feeding module mounting frame (51), a first feeding rubber roller (621) and a second feeding rubber roller (622) arranged between the two feeding device side plates (61), a feeding rubber roller sliding groove (611) is formed in each feeding device side plate (61), a feeding rubber roller sliding block (612) capable of sliding in the feeding rubber roller sliding groove (611) is arranged in each feeding rubber roller sliding groove (611), two ends of each first feeding rubber roller (621) are mounted on the corresponding feeding device side plate (61) through bearings, two ends of each second feeding rubber roller (622) are mounted on the corresponding feeding rubber roller sliding block (612) through bearings, a rubber roller driving gear (631) is arranged on each first feeding rubber roller (621), and a rubber roller driven gear (632) meshed with the rubber roller driving gear (631) is arranged on each second feeding rubber roller (622), a feeding transmission device is arranged between the output end of the feeding module driving motor and one end of the first feeding rubber roll (621), a feeding device top cover plate (613) is arranged at the top of the feeding device side plate (61), and a feeding rubber roll fine adjustment screw rod is arranged between the feeding device top cover plate (613) and the feeding rubber roll sliding block (612);

the feeding transmission device comprises a feeding driving wheel arranged on an output shaft of a driving motor of the feeding module, a feeding driven wheel arranged at one end of a first feeding rubber roller (621), and a feeding transmission belt wound between the feeding driving wheel and the feeding driven wheel, wherein a rubber roller sliding block connecting rod (614) is arranged between two feeding rubber roller sliding blocks (612);

a first guide shaft sliding block (641) and a second guide shaft sliding block (642) which can slide up and down along the side edge of the side plate (61) of the feeding device are arranged along the side edge of the side plate (61), a first feeding guide shaft (651) is arranged between the first guide shaft sliding blocks (641) on the two side plates (61) of the feeding device, a second feeding guide shaft (652) is arranged between the second guide shaft sliding blocks (642) on the two side plates (61) of the feeding device, a plurality of first guide tension springs (661) are wound between the first feeding guide shaft (651) and the first feeding rubber roll (621), a plurality of second guide tension springs (662) are wound between the second feeding guide shaft (652) and the second feeding rubber roll (622), limiting waist-shaped holes are respectively formed in the first guide shaft sliding block (641) and the second guide shaft sliding block (642), and the first guide shaft sliding block (641) and the second guide shaft sliding block (642) are installed on the side plate (61) of the feeding device by penetrating through the limiting waist-shaped holes through screws or bolts, a first guide shaft adjusting screw (671) is arranged between the first guide shaft sliding block (641) and the top cover plate (613) of the feeding device, and a second guide shaft adjusting screw (672) is arranged between the second guide shaft sliding block (642) and the top cover plate (613) of the feeding device.

8. An adjustable angle crosscutting apparatus according to claim 7, characterised in that: the pressing device (52) comprises a pressing device mounting shaft (521) fixed between the two feeding device side plates (61), the mounting shaft (521) of the pressing device is provided with a first arm lever (523) of the pressing device through a connecting ring (522) of the pressing device, a second arm lever (524) of the material pressing device is arranged at the free end of the first arm lever (523) of the material pressing device, a swing angle adjusting device is arranged between the first arm lever (523) of the material pressing device and the second arm lever (524) of the material pressing device, the free end of the second arm lever (524) of the material pressing device is provided with a roller shaft (525) of the material pressing device, a material pressing device torsion spring fixing ring (526) is arranged on the material pressing device roller shaft (525), a rubber wheel mounting plate (527) of the pressing device is arranged on the torsion spring fixing ring (526) of the pressing device, and a material pressing rubber wheel (528) is arranged on the material pressing device rubber wheel mounting plate (527).

9. An adjustable angle crosscutting apparatus as claimed in claim 1, characterised in that: the feeding module (7) comprises a feeding module mounting frame (71) and a feeding module driving motor (72), a plurality of material passing rollers (73) and a feeding oscillating bar device (74) which are arranged on the feeding module mounting frame (71), and the feeding device (8) is arranged on the feeding module mounting frame (71).

10. An adjustable angle crosscutting apparatus as claimed in claim 9, characterised in that: the emptying device (8) comprises two emptying device side plates (81) fixedly mounted on an emptying module mounting frame (71) and a first emptying roller (821) and a second emptying roller (822) mounted between the two emptying device side plates (81), wherein a roller slide block mounting groove (811) is formed in each emptying device side plate (81), an emptying roller slide block (812) capable of sliding in each roller slide block mounting groove (811) is arranged in each roller slide block mounting groove (811), a side limiting plate (813) is arranged on the side portion of each emptying device side plate (81), the two ends of each first emptying roller (821) are mounted on the emptying device side plates (81) through bearings, the two ends of each second emptying roller (822) are mounted on each emptying roller slide block (812) through bearings, and an emptying roller adjusting screw rod is arranged between each emptying roller slide block (812) and each side limiting plate (813), a discharging driving wheel is arranged at the output end of the discharging module driving motor (72), a discharging driven driving wheel is arranged at one end of the first discharging roller (821), a discharging driving belt is arranged between the discharging driving wheel and the discharging driven driving wheel, the discharging module driving motor (72) can drive the first discharging roller (821) to rotate through the discharging driving wheel, the discharging driven driving wheel and the discharging driving belt, and a discharging roller slider connecting rod (814) is arranged between the two discharging roller sliders (812);

the feeding swing rod device (74) comprises a swing rod main shaft (741) arranged on the feeding module mounting frame (71), the swing rod main shaft (741) is provided with a swing rod beam (743) through a swing rod shaft sleeve (742), and a plurality of swing rod rollers (744) are arranged on the swing rod beam (743).

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