CN210190738U - Automatic corrugated board cutting machine - Google Patents

Abstract

The utility model discloses an automatic corrugated board cutting machine, which relates to the technical field of packaging carton production and aims to solve the problems that corrugated boards are easy to incline and the cutting quality is affected when the existing cutting machine is used for feeding, and comprises a working table frame, a lower conveying compression roller rotationally arranged on the working table frame, an upper conveying compression roller rotationally arranged on the working table frame, a first driving device, a lower cutter roller rotationally arranged on the working table frame, an upper cutter roller rotationally arranged on the working table frame, a second driving device, an upper annular cutter and a lower annular cutter which are respectively arranged on the upper cutter roller and the lower cutter roller through detachable pieces, two positioning base plates slidably arranged on the working table frame, a fourth telescopic device arranged on the working table frame, an L-shaped positioning support plate respectively arranged on the opposite side walls of the two positioning base plates, and a stability maintaining assembly arranged on the positioning base plates, the utility model discloses make corrugated container board straight pass through the cutting machine, guarantee to cut the quality.

Description

Automatic corrugated board cutting machine

Technical Field

The utility model relates to a packing carton production technical field, more specifically say, it relates to an automatic corrugated container board cutting machine.

Background

The corrugated paper box is a widely used packaging product, gradually replaces transport packaging containers such as wooden boxes and the like by virtue of superior service performance and good processing performance, plays roles of beautifying commodities and publicizing commodities besides protecting commodities and facilitating storage and transportation, and needs to be cut into required widths in the production process of the corrugated paper box and then processed in the later period.

The traditional Chinese patent with the publication number of CN208729942U discloses a corrugated paper longitudinal cutting device, which comprises a conveying platform for conveying corrugated paper, wherein conveying rollers for conveying the corrugated paper are respectively arranged at two ends of the conveying platform, the conveying platform is provided with a long groove parallel to the conveying direction of the conveying rollers, a bottom knife roller is arranged below the long groove, a bottom knife for cutting the corrugated paper from bottom to top is rotatably arranged on the bottom knife roller, an upper knife roller is arranged above the long groove, the upper knife roller is rotatably provided with an upper knife for cutting the corrugated paper from top to bottom, the bottom knife and the upper knife are arranged in a staggered mode at intervals, cutting knives for cutting the corrugated paper are arranged on one sides, close to the output end of the conveying platform, of the upper knife and the bottom.

However, when the corrugated board is cut and fed into the cutting device, the corrugated board must be prevented from moving, otherwise, the cut joint of the cut corrugated board is inclined, and the later processing is affected.

SUMMERY OF THE UTILITY MODEL

Not enough to prior art exists, the utility model aims to provide an automatic cutting machine of corrugated container board can realize the position restriction to corrugated container board when carrying out the material loading to corrugated container board, makes corrugated container board straight pass through the cutting machine, guarantees to cut the quality.

In order to achieve the above purpose, the utility model provides a following technical scheme:

an automatic cutting machine for corrugated paper boards comprises a working table frame, a lower conveying press roller, an upper conveying press roller, a first driving device, a lower cutter roller, an upper cutter roller, a second driving device, an upper ring cutter and a lower ring cutter, wherein the lower conveying press roller is rotatably arranged on the upper surface of the working table frame and is positioned right above the lower conveying press roller, the lower cutter roller is rotatably arranged on the upper surface of the working table frame and is positioned at the discharge end of the upper conveying press roller and the lower conveying press roller, the upper cutter roller is rotatably arranged on the upper surface of the working table frame and is positioned right above the lower cutter roller, the second driving device is used for driving the upper cutter roller and the lower cutter roller to rotate, the upper ring cutter and the lower ring cutter are respectively arranged on the upper cutter roller and the lower cutter roller through a detachable piece, the upper ring cutter and the corresponding lower ring cutter are arranged in a staggered and attached mode, the automatic cutting machine further comprises two positioning base plates which are slidably arranged on the upper surface of the working table frame and are positioned at the feed ends of, the two positioning base plates are oppositely arranged along the axial direction of the conveying upper press roll and slide along the axial direction of the conveying upper press roll, the corrugated board conveying device further comprises L-shaped positioning abutting plates respectively arranged on opposite side walls of the two positioning base plates and a stability maintaining component arranged on the positioning base plates and used for stabilizing the corrugated boards on the L-shaped positioning abutting plates, and vertical walls of the L-shaped positioning abutting plates are attached to the positioning base plates.

Through taking above-mentioned technical scheme, when carrying out the material loading to corrugated container board, press corrugated container board between the horizontal arm of steady subassembly of dimension and L type location support board, and simultaneously, the location base plate slides, make corrugated container board's both ends divide on the vertical arm of L type location support board, and then can carry out the ascending dual spacing of vertical direction and horizontal direction to corrugated container board, and then under the drive of compression roller and conveying lower compression roller in the conveying, corrugated container board can go into between roller and the cutter lower roll on the cutter straightly, and then go up the cutting task to corrugated container board completion of cutting with lower cutting ring, thereby the utility model discloses the realization is to corrugated container board's position restriction, makes corrugated container board straightly pass through the cutting machine, guarantees to cut the quality.

The utility model discloses further set up to, the axial both ends of compression roller are rotated and are provided with first regulating block in the conveying, the upper surface of workstation is provided with the first regulation base section of thick bamboo that supplies first regulating block to slide along vertical direction, be provided with the first telescoping device that has of the first regulating block removal of drive on the first regulation base section of thick bamboo, the axial both ends of roller are rotated and are provided with the second regulating block on the cutter, the upper surface of workstation is provided with the second that supplies the second regulating block to slide along vertical direction and adjusts the base section of thick bamboo, be provided with the second telescoping device that drives the second regulating block removal on the second regulation base section of thick bamboo, L type location is followed vertical direction and is slided and set up on the location base plate, the horizontal arm of L type location is located the top, be provided with the third telescoping device that drive L type location was slided to the board on the location base plate.

By adopting the technical scheme, the heights of the horizontal arms for conveying the upper compression roller, the upper cutter roller and the L-shaped positioning resisting plate are correspondingly adjusted, so that the operation of the corrugated paper boards with different thicknesses can be realized by the upper conveying roller, the lower conveying roller, the upper cutter roller, the lower cutter roller, the L-shaped positioning resisting plate and the maintaining and stabilizing assembly, and the utilization rate of the splitting machine is further improved.

The utility model is further provided with that the stability maintaining component comprises a driving gear and a driven gear which are respectively arranged on the opposite side walls of the two positioning base plates, a driving toothed belt arranged between the driving gear and the driven gear and a third driving device which is arranged on the positioning base plates and drives the driving gear to rotate, the driving toothed belt extends along the direction vertical to the axial direction of the upper conveying press roll, and also comprises a plurality of linkage gears which are rotatably arranged on the positioning base plate and are meshed with the teeth at the top end of the lower toothed belt of the driving toothed belt, a stable pressing wheel which is arranged at the center of one side of the linkage gears far away from the positioning base plate through a linkage shaft, and a plurality of auxiliary rolls which are arranged on the lower surface of the horizontal top arm of the L-shaped positioning abutting plate, the axial direction of the auxiliary roller is the same as the axial direction of the linkage shaft, the L-shaped positioning resisting plate is connected to the positioning base plate in a sliding mode through the position allowing block, and the L-shaped positioning resisting plate extends out of the driving toothed belt in the direction far away from the positioning base plate.

By adopting the technical scheme, the corrugated board is pressed between the stabilizing pressing wheel and the lower surface of the horizontal top arm of the L-shaped limiting abutting plate, so that the horizontal and vertical limiting of the corrugated board can be realized, and meanwhile, under the driving of the driving gear, the driving toothed belt, the linkage gear and the linkage shaft and the assistance of the auxiliary wheel, the corrugated board can be conveyed in an auxiliary manner, so that the corrugated board can enter between the upper roller of the cutter and the lower roller of the cutter more stably, and the abrasion to the surface of the corrugated board can be reduced; and the linkage gear is meshed with the top end teeth of the lower toothed belt of the driving toothed belt, so that the teeth on the driving toothed belt can be directly utilized for linkage, and the manufacturing time of the device is saved.

The utility model discloses further set up to, can dismantle the piece including sunken setting respectively on the cutter roller and cutter lower roll periphery wall along axially extended spacing installation spout, slide the collar that sets up in spacing installation spout through spacing installation slider and keep away from the fixed chamber that collar one side lateral wall and spacing installation spout diapire formed by spacing installation slider, still including setting up on the collar outer rampart along the fixed logical groove and the fixed push rod of threaded connection in fixed logical inslot of radially running through the collar, set up and stretch into fixed chamber one end and support tight fixed the support plate with spacing installation spout diapire at fixed push rod, go up the cutting ring and pass through the bolt setting respectively on the axial end wall of collar with the cutting ring down.

Through adopting above-mentioned technical scheme, the collar slides on spacing installation spout through spacing installation slider, then supports the tank bottom of tightly at spacing installation spout with fixed butt plate and realize fixing, can adjust the position of going up cutting ring and cutting ring down, realizes the cutting to the different width of corrugated container board, simultaneously, goes up the cutting ring and can dismantle between cutting ring and the collar down and be connected, can realize the change to going up cutting ring and cutting ring down.

The utility model discloses further set up to, be provided with the anti-skidding ring pad on the circumference wheel wall of stabilizing the pinch roller.

Through adopting above-mentioned technical scheme, increase the frictional force between stable pinch roller and the corrugated container board, and then can avoid taking place to skid between stable pinch roller and the corrugated container board, make corrugated container board can convey more steadily.

The utility model discloses further set up to, the length direction both ends of the vertical lateral wall of the horizontal top arm of L type location are provided with auxiliary gear, two respectively be provided with supplementary cingulum between the auxiliary gear, L type location is provided with drive auxiliary gear pivoted fourth drive arrangement on supporting the board, the one end that the auxiliary roller is close to supplementary cingulum is provided with the supplementary interlocking wheel with supplementary cingulum meshing.

By adopting the technical scheme, the auxiliary roller can roll under the driving action of the auxiliary gear, the auxiliary toothed belt and the auxiliary linkage wheel, so that the transmission driving of the corrugated board can be enhanced, and the phenomenon that the passive auxiliary roller slips between the corrugated board and the corrugated board to abrade the surface of the corrugated board can be avoided.

The utility model discloses further set up to, one side that the vertical arm of L type location was supported the board and was kept away from the location base plate is rotated and is provided with a plurality of anti-grinding rollers that the axis extends along vertical direction.

Through adopting above-mentioned technical scheme, convert the friction form between the vertical arm of L type location offset plate and corrugated container board into rolling friction by sliding friction, and then avoid the vertical arm of L type location offset plate to cause wearing and tearing to corrugated container board.

The utility model discloses further set up to, the cell wall of spacing installation spout is provided with the reinforcement bump, one side that fixed push rod was kept away from to fixed support plate is provided with flexible bullet pad.

Through adopting above-mentioned technical scheme, when fixed support the board and support tightly on spacing installation spout diapire, consolidate the bump and can be absorbed in flexible bullet pad, and then can strengthen supporting between fixed support board and the spacing installation spout tightly firm power, improve the installation stability of collar.

To sum up, the utility model discloses following beneficial effect has:

1. when the utility model is used for feeding corrugated paper boards, the corrugated paper boards are pressed by the stabilizing component and the horizontal arm of the L-shaped positioning resisting plate, and meanwhile, the positioning base plate slides to enable two ends of the corrugated paper boards to be respectively arranged on the vertical arm of the L-shaped positioning resisting plate, so that the corrugated paper boards can be subjected to double limiting in the vertical direction and the horizontal direction, and can be straightly passed through the splitting machine, and the splitting quality is ensured;

2. the utility model provides an among the steady subassembly of dimension, press corrugated container board between the horizontal top arm lower surface of stable pinch roller and the spacing support of L, can realize spacing to corrugated container board level and two vertical directions, simultaneously, at the driving gear, under the drive of drive cingulum and linkage gear and universal driving shaft, and under the assistance of auxiliary wheel, not only can assist corrugated container board and carry, make corrugated container board get into more steadily between roller and the cutter lower roll on the cutter, and can reduce the wearing and tearing to corrugated container board surface.

Drawings

Fig. 1 is a schematic structural diagram of the present invention.

Fig. 2 is an enlarged view of a point a in fig. 1.

Fig. 3 is an exploded view of a concession block structure according to the present invention.

Fig. 4 is an exploded view of a detachable member structure according to the present invention.

Reference numerals: 1. a working bench; 2. conveying the lower press roll; 3. conveying an upper press roller; 4. a first driving device; 5. a cutter lower roller; 6. an upper roller is arranged on the cutter; 7. a second driving device; 8. a detachable member; 9. feeding a cutting ring; 10. a cutting ring is arranged; 11. positioning the substrate; 12. a fourth telescoping device; 13. an L-shaped positioning resisting plate; 14. a stability maintaining component; 15. a first regulating block; 16. a first adjustment base cylinder; 17. a first telescoping device; 18. a second regulating block; 19. a second adjustment base cylinder; 20. a second telescoping device; 21. a third telescoping device; 22. a driving gear; 23. a driven gear; 24. a drive toothed belt; 25. a third driving device; 26. a linkage gear; 27. a linkage shaft; 28. stabilizing the pinch roller; 29. an auxiliary roller; 30. limiting and mounting a sliding groove; 31. a mounting ring; 32. a fixed cavity; 33. fixing the through groove; 34. fixing the push rod; 35. fixing the abutting plate; 36. an anti-slip ring pad; 37. an auxiliary gear; 38. an auxiliary toothed belt; 39. a fourth drive device; 40. an auxiliary linkage wheel; 41. anti-grinding roller; 42. reinforcing the salient points; 43. a flexible spring pad; 44. a bit-yielding block; 45. and a sliding block is installed in a limiting way.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings.

Example (b):

the utility model discloses an automatic corrugated board splitting machine, as shown in figure 1 and figure 2, still include work bench 1, slide and set up two positioning substrate 11 that are located the feed end of transmission upper compression roller 3 and transmission lower compression roller 2 on the upper surface of work bench 1 and set up the fourth telescoping device 12 that drives positioning substrate 11 and slide on work bench 1, two positioning substrate 11 set up along the axial of transmission upper compression roller 3 relatively and along the axial of transmission upper compression roller 3 slide, still include L type location offset 13 that sets up respectively on two positioning substrate 11 relative lateral walls and set up on positioning substrate 11 and be used for stabilizing corrugated board at the dimensionally stable subassembly 14 on L type location offset 13, the vertical wall laminating positioning substrate 11 of L type location offset 13 sets up; when the corrugated board is required to be cut, the position of the positioning base plate 11 is moved through the fourth telescopic device 12 according to the total width of the corrugated board, then the corrugated board is pressed between the stabilizing component 14 and the L-shaped positioning resisting plate 13, and the two ends of the corrugated board are respectively arranged on the vertical arms of the L-shaped positioning resisting plate 13, so that the orientation limitation on the corrugated board is realized, and the corrugated board is prevented from moving in the feeding process.

As shown in fig. 1, an automatic splitting machine for corrugated boards further comprises a lower conveying press roller 2 rotatably arranged on the upper surface of a workbench stand 1, an upper conveying press roller 3 rotatably arranged on the upper surface of the workbench stand 1 and positioned right above the lower conveying press roller 2, a first driving device 4 for driving the upper conveying press roller 3 and the lower conveying press roller 2 to rotate, a lower cutter roller 5 rotatably arranged on the upper surface of the workbench stand 1 and positioned at the discharge end of the upper conveying press roller 3 and the lower conveying press roller 2, an upper cutter roller 6 rotatably arranged on the upper surface of the workbench stand 1 and positioned right above the lower cutter roller 5, a second driving device 7 for driving the upper cutter roller 6 and the lower cutter roller 5 to rotate, and an upper ring cutter 9 and a lower ring cutter 10 respectively arranged on the upper cutter roller 6 and the lower cutter roller 5 through a detachable piece 8, wherein the upper ring cutter 9 and the corresponding lower ring cutter 10 are arranged in a staggered and attached manner; according to the cutting width of the required corrugated board, an upper ring cutter 9 and a lower ring cutter 10 are respectively installed at the proper positions of an upper roller 6 and a lower roller 5 of a cutter through a detachable piece 8, a first driving device 4 and a second driving device 7 are started, the corrugated board enters between the upper roller 6 and the lower roller 5 of the cutter under the driving of an upper conveying pressing roller 3 and a lower conveying pressing roller 2, then the upper ring cutter 9 and the lower ring cutter 10 rotatably cut the corrugated board, and the corrugated board can be cut.

As shown in fig. 1 and 4, the detachable member 8 comprises a limit mounting chute 30 which is respectively recessed and arranged on the outer peripheral wall of the upper cutter roller 6 and the lower cutter roller 5 and extends along the axial direction, a mounting ring 31 which is arranged in the limit mounting chute 30 in a sliding way through a limit mounting slider 45, a fixing cavity 32 which is formed by a side wall of the limit mounting slider 45 far away from one side of the mounting ring 31 and the bottom wall of the limit mounting chute 30, a fixing through groove 33 which is arranged on the outer annular wall of the mounting ring 31 and penetrates through the mounting ring 31 along the radial direction, and a fixing push rod 34 which is connected in the fixing through groove 33 in a threaded, the fixed abutting plate 35 is arranged at one end, extending into the fixed cavity 32, of the fixed push rod 34 and abuts against the bottom wall of the limiting installation chute 30, the upper ring cutter 9 and the lower ring cutter 10 are respectively arranged on the axial end wall of the installation ring 31 through bolts, reinforcing salient points 42 are arranged on the groove wall of the limiting installation chute 30, and a flexible elastic cushion 43 is arranged on one side, away from the fixed push rod 34, of the fixed abutting plate 35; in the process of installing the upper ring cutter 9 and the lower ring cutter 10, firstly, a proper upper ring cutter 9 and a proper lower ring cutter 10 are selected, the upper ring cutter 9 and the lower ring cutter 10 are installed on the installation ring 31 through bolts, then, according to the cutting width of the required corrugated board, the installation ring 31 is slid to a proper position of the limiting installation sliding groove 30 through the limiting installation sliding block 45, then, the fixed push rod 34 is rotated in the fixed through groove 33, the fixed abutting plate 35 is pressed on the bottom wall of the limiting installation sliding groove 30, and the reinforcing salient points 42 are embedded into the flexible elastic pads 43.

As shown in fig. 1, the axial two ends of the upper conveying press roll 3 are rotatably provided with first adjusting blocks 15, the upper surface of the working table frame 1 is provided with a first adjusting base cylinder 16 for the first adjusting blocks 15 to slide along the vertical direction, the first adjusting base cylinder 16 is provided with a first telescopic device 17 for driving the first adjusting blocks 15 to move, the axial two ends of the upper cutter roll 6 are rotatably provided with second adjusting blocks 18, the upper surface of the working table frame 1 is provided with a second adjusting base cylinder 19 for the second adjusting blocks 18 to slide along the vertical direction, the second adjusting base cylinder 19 is provided with a second telescopic device 20 for driving the second adjusting blocks 18 to move, the L-shaped positioning resisting plate 13 is slidably arranged on the positioning base plate 11 along the vertical direction, the horizontal arm of the L-shaped positioning resisting plate 13 is positioned at the top end, and the positioning base plate 11 is provided with a third telescopic device 21 for driving the L-shaped positioning resisting plate 13 to slide; according to the thickness of the corrugated board, the heights of the horizontal arms of the upper conveying compression roller 3, the upper cutter roller 6 and the L-shaped positioning resisting plate 13 are respectively adjusted by starting the first telescopic device 17, the second telescopic device 20 and the third telescopic device 21, so that the corrugated board can straightly pass through the stabilizing component 14, the L-shaped positioning resisting plate 13, the upper conveying compression roller 3, the lower conveying compression roller 2 and the upper cutter roller 6 and the lower cutter roller 5, the upper conveying compression roller 3, the lower conveying compression roller 2, the upper cutter roller 6, the lower cutter roller 5, the L-shaped positioning resisting plate 13 and the stabilizing component 14 to realize the operation of the corrugated boards with different thicknesses, and the utilization rate of the splitting machine is further improved.

As shown in fig. 2 and fig. 3, the dimensionally stable assembly 14 includes a driving gear 22 and a driven gear 23 disposed on opposite side walls of two positioning substrates 11, a driving toothed belt 24 disposed between the driving gear 22 and the driven gear 23, and a third driving device 25 disposed on the positioning substrates 11 for driving the driving gear 22 to rotate, the driving toothed belt 24 extends in a direction perpendicular to the axial direction of the upper conveying press roll 3, and further includes a plurality of linkage gears 26 rotatably disposed on the positioning substrates 11 and engaged with teeth at top ends of the lower toothed belt of the driving toothed belt 24, a stabilizing press roll 28 disposed at a center of one side of the linkage gears 26 away from the positioning substrates 11 through a linkage shaft 27, and a plurality of auxiliary rolls 29 disposed on lower surfaces of horizontal top arms of the L-shaped positioning support plates 13, an anti-slip ring pad 36 is disposed on a circumferential wheel wall of the stabilizing press roll 28, an axial direction of the auxiliary rolls 29 is the same as an axial direction of the linkage shaft 27, the L-shaped positioning support plates 13 are connected to, the L-shaped positioning resisting plate 13 extends out of the driving toothed belt 24 in the direction far away from the positioning base plate 11, and one side, far away from the positioning base plate 11, of a vertical arm of the L-shaped positioning resisting plate 13 is rotatably provided with a plurality of anti-grinding rollers 41 of which the axes extend in the vertical direction; when the corrugated board is fed, the corrugated board is firstly placed between the stabilizing pressing wheel 28 and the lower surface of the horizontal top arm of the L-shaped positioning abutting plate 13, then the first driving device 4 and the third driving device 25 are started together, the driving gear 22 drives the driving toothed belt 24 to be meshed, then the driving toothed belt 24 is meshed with the linkage gear 26, the linkage gear 26 drives the stabilizing pressing wheel 28 to roll through the linkage shaft 27, the upper pressing roller 3 and the lower pressing roller 2 are conveyed in a matched mode, the corrugated board is stably conveyed between the upper cutter roller 6 and the lower cutter roller 5 together, and cutting of the corrugated board is completed.

As shown in fig. 2, two ends of the vertical side wall of the horizontal top arm of the L-shaped positioning resisting plate 13 in the length direction are respectively provided with an auxiliary gear 37, an auxiliary toothed belt 38 is arranged between the two auxiliary gears 37, the L-shaped positioning resisting plate 13 is provided with a fourth driving device 39 for driving the auxiliary gear 37 to rotate, and one end of the auxiliary roller 29 close to the auxiliary toothed belt 38 is provided with an auxiliary linkage wheel 40 engaged with the auxiliary toothed belt 38; and simultaneously when the third driving device 25 is started, the fourth driving device 39 is started, so that the auxiliary gear 37 drives the auxiliary toothed belt 38, the auxiliary toothed belt 38 is meshed with the auxiliary linkage wheel 40, the auxiliary roller 29 can be driven to actively roll, and the corrugated board is conveyed between the conveying upper press roller 3 and the conveying lower press roller 2 together with the stabilizing pinch roller 28.

The working process is as follows:

firstly, selecting proper upper ring cutter 9 and lower ring cutter 10, respectively installing the upper ring cutter 9 and lower ring cutter 10 on proper positions of an upper cutter roller 6 and a lower cutter roller 5, then placing a corrugated board between a stabilizing pressure wheel 28 and the lower surface of a horizontal top arm of an L-shaped positioning resisting plate 13, then moving the position of a positioning base plate 11 through a fourth telescopic device 12, pressing the corrugated board between a stabilizing component 14 and the L-shaped positioning resisting plate 13, enabling two ends of the corrugated board to be respectively arranged on a vertical arm of the L-shaped positioning resisting plate 13 to realize the direction limitation of the corrugated board, then simultaneously starting a first driving device 4, a second driving device 7, a third driving device 25 and a fourth driving device 39 to enable the stabilizing pressure wheel 28, an auxiliary roller 29, an upper conveying press roller 3, a lower conveying press roller 2, the upper cutter roller 6 and a lower cutter roller 5 to rotate, and then stably conveying the corrugated board between the upper cutter roller 6 and the lower cutter roller 5, the upper ring cutter 9 and the lower ring cutter 10 realize the cutting of the corrugated board.

Wherein, the utility model provides a first drive arrangement 4, second drive arrangement 7, third drive arrangement 25 and fourth drive arrangement 39 are driving motor, and first telescoping device 17, second telescoping device 20, third telescoping device 21 and fourth telescoping device 12 are for driving actuating cylinder.

The present embodiment is only for explaining the present invention, and it is not limited to the present invention, and those skilled in the art can make modifications to the present embodiment without inventive contribution as required after reading the present specification, but all of them are protected by patent laws within the scope of the claims of the present invention.

Claims (8)

1. The utility model provides a corrugated container board automatic cutout machine which characterized in that: comprises a workbench frame (1), a lower conveying press roller (2) rotationally arranged on the upper surface of the workbench frame (1), an upper conveying press roller (3) rotationally arranged on the upper surface of the workbench frame (1) and positioned right above the lower conveying press roller (2), a first driving device (4) for driving the upper conveying press roller (3) and the lower conveying press roller (2) to rotate, an upper cutter roller (6) rotationally arranged on the upper surface of the workbench frame (1) and positioned right above the lower cutter roller (5), a second driving device (7) for driving the upper cutter roller (6) and the lower cutter roller (5) to rotate, and an upper ring cutter (9) and a lower ring cutter (10) respectively arranged on the upper cutter roller (6) and the lower cutter roller (5) through a detachable piece (8), go up cutting ring (9) and corresponding lower cutting ring (10) crisscross laminating setting, still including sliding and setting up two location base plate (11) and setting fourth telescoping device (12) that drive location base plate (11) slided on workstation frame (1) upper surface is located press roll (3) and conveying down press roll (2) feed end on the conveying, two location base plate (11) set up along the axial of conveying upper press roll (3) relatively and slide along the axial of conveying upper press roll (3), still including setting up L type location respectively on two location base plate (11) relative lateral wall and setting up on location base plate (11) and be used for stablizing steady subassembly (14) on L type location butt plate (13) with corrugated container board, the vertical wall laminating location base plate (11) setting of L type location butt plate (13).

2. An automatic cutting machine for corrugated cardboard according to claim 1, characterized in that: the axial two ends of the upper conveying pressing roller (3) are rotatably provided with first adjusting blocks (15), the upper surface of the workbench frame (1) is provided with first adjusting base cylinders (16) for the first adjusting blocks (15) to slide along the vertical direction, the first adjusting base cylinders (16) are provided with first telescopic devices (17) for driving the first adjusting blocks (15) to move, the axial two ends of the upper cutter roller (6) are rotatably provided with second adjusting blocks (18), the upper surface of the workbench frame (1) is provided with second adjusting base cylinders (19) for the second adjusting blocks (18) to slide along the vertical direction, the second adjusting base cylinders (19) are provided with second telescopic devices (20) for driving the second adjusting blocks (18) to move, the L-shaped positioning resisting plate (13) is arranged on the positioning base plate (11) in a sliding manner along the vertical direction, and the horizontal arm of the L-shaped positioning resisting plate (13) is positioned at the top end, and a third telescopic device (21) for driving the L-shaped positioning resisting plate (13) to slide is arranged on the positioning base plate (11).

3. An automatic splitting machine for corrugated cardboard according to claim 2, characterized in that: the stability maintaining assembly (14) comprises a driving gear (22) and a driven gear (23) which are arranged on opposite side walls of two positioning base plates (11) respectively, a driving toothed belt (24) arranged between the driving gear (22) and the driven gear (23), and a third driving device (25) which is arranged on the positioning base plates (11) and drives the driving gear (22) to rotate, wherein the driving toothed belt (24) extends along the direction vertical to the axial direction of the upper conveying press roll (3), the stability maintaining assembly further comprises a plurality of linkage gears (26) which are rotatably arranged on the positioning base plates (11) and are meshed with teeth at the top ends of lower toothed belts of the driving toothed belt (24), a stable press wheel (28) which is arranged at the center of one side of the positioning base plates (11) far away from the linkage gears (26) through a linkage shaft (27), and a plurality of auxiliary rolls (29) which are arranged on the lower surfaces of horizontal top arms of the L-shaped positioning press plates (13), and the axial direction of the auxiliary rolls (29, the L-shaped positioning abutting plate (13) is connected to the positioning base plate (11) in a sliding mode through the position block (44), and the L-shaped positioning abutting plate (13) extends out of the driving toothed belt (24) in the direction far away from the positioning base plate (11).

4. An automatic cutting machine for corrugated cardboard according to claim 1, characterized in that: the detachable piece (8) comprises a limiting installation sliding groove (30) which is respectively arranged on the outer peripheral wall of the upper cutter roller (6) and the lower cutter roller (5) in a sunken mode and extends along the axial direction, an installation ring (31) which is arranged in the limiting installation sliding groove (30) in a sliding mode through a limiting installation sliding block (45), a fixed cavity (32) which is formed by the side wall of one side, far away from the installation ring (31), of the limiting installation sliding block (45) and the bottom wall of the limiting installation sliding groove (30), a fixed through groove (33) which is arranged on the outer annular wall of the installation ring (31) and penetrates through the installation ring (31) along the radial direction, a fixed push rod (34) which is connected in the fixed through groove (33) in a threaded mode, and a fixed abutting plate (35) which is arranged at one end, extending into the fixed cavity (32), and abuts, the upper cutting ring (9) and the lower cutting ring (10) are arranged on the axial end wall of the mounting ring (31) through bolts respectively.

5. An automatic dividing and cutting machine for corrugated cardboard according to claim 3, characterized in that: and an anti-skid ring pad (36) is arranged on the circumferential wheel wall of the stabilizing pressing wheel (28).

6. An automatic dividing and cutting machine for corrugated cardboard according to claim 3, characterized in that: the auxiliary gear (37) is respectively arranged at two ends of the length direction of the vertical side wall of the horizontal top arm of the L-shaped positioning abutting plate (13), an auxiliary toothed belt (38) is arranged between the two auxiliary gears (37), a fourth driving device (39) for driving the auxiliary gears (37) to rotate is arranged on the L-shaped positioning abutting plate (13), and an auxiliary linkage wheel (40) meshed with the auxiliary toothed belt (38) is arranged at one end, close to the auxiliary toothed belt (38), of the auxiliary roller (29).

7. An automatic cutting machine for corrugated cardboard according to claim 1, characterized in that: and a plurality of anti-grinding rollers (41) with axes extending along the vertical direction are rotatably arranged on one side of the vertical arm of the L-shaped positioning resisting plate (13) far away from the positioning substrate (11).

8. An automatic dividing and cutting machine for corrugated cardboard according to claim 4, characterized in that: the groove wall of the limiting installation sliding groove (30) is provided with a reinforcing convex point (42), and one side, away from the fixed push rod (34), of the fixed abutting plate (35) is provided with a flexible elastic pad (43).

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