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CN212639412U - Corrugated board transverse cutting conveying mechanism - Google Patents

Corrugated board transverse cutting conveying mechanism Download PDF

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Publication number
CN212639412U
CN212639412U CN202021293861.0U CN202021293861U CN212639412U CN 212639412 U CN212639412 U CN 212639412U CN 202021293861 U CN202021293861 U CN 202021293861U CN 212639412 U CN212639412 U CN 212639412U
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CN
China
Prior art keywords
frame
corrugated board
bottom plate
conveying
corrugated
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Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Expired - Fee Related
Application number
CN202021293861.0U
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Chinese (zh)
Inventor
荣华
吴飞
王德旺
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Dongguan Quantai Paper Products Co ltd
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Dongguan Quantai Paper Products Co ltd
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
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Priority to CN202021293861.0U priority Critical patent/CN212639412U/en
Application granted granted Critical
Publication of CN212639412U publication Critical patent/CN212639412U/en
Expired - Fee Related legal-status Critical Current
Anticipated expiration legal-status Critical

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Abstract

The utility model relates to a corrugated container board crosscut conveying mechanism, it includes the frame, and the discharge end of frame rotates and is provided with the driving shaft, and the feed end of frame rotates and is provided with the driven shaft, and the driving shaft is provided with the conveyer belt with the driven shaft cladding, is provided with the bottom plate in the frame, and the conveyer belt bottom surface is close to in order to support the conveying to corrugated container board in the bottom plate top surface. The corrugated board conveying device has the advantages that the stability of the conveying effect of the transversely cut corrugated boards is improved, the damage to the corrugated boards possibly occurring in the conveying process is reduced, and unnecessary resource waste is reduced.

Description

Corrugated board transverse cutting conveying mechanism
Technical Field
The application relates to the technical field of corrugated board production, in particular to a corrugated board transverse cutting conveying mechanism.
Background
Corrugated board is a multi-layer adhesive body, which is composed of at least one layer of wavy core paper interlayer (commonly called as "hole paper", "corrugated core paper", "corrugated paper core", "corrugated base paper") and one layer of paper board (also called as "box board paper" or "box paper board"). It has high mechanical strength and can resist collision and falling in the process of transportation.
The production of the corrugated board needs to be carried out by pressing corrugation, gluing, bonding, separating and pressing, crosscutting, receiving and packaging by a winding drum base paper, the corrugated board after crosscutting needs to be conveyed by a conveying mechanism, the conveying mechanism conveys the corrugated board which is crosscut into products with standard specifications to a receiving mechanism, the general conveying mechanism adopts a conveying belt conveying mode, namely the corrugated board falls to the top of a conveying belt at the feeding end of a rack and moves through the friction force between the corrugated board and the conveying belt, the conveying mode only depends on the friction force between the corrugated board and the conveying belt, the friction force is mainly determined by the gravity of the corrugated board and the friction coefficient between the corrugated board and the conveying belt, the weight of the corrugated board is smaller and the friction force between the corrugated board and the conveying belt is possibly uneven due to the influence of flatness, and the corrugated board is likely to slip or deflect in, making the conveying effect of the corrugated cardboard unstable.
SUMMERY OF THE UTILITY MODEL
In order to improve the stability to the corrugated container board conveying effect after the crosscut, the application provides a corrugated container board crosscut conveying mechanism.
The application provides a corrugated container board crosscut conveying mechanism adopts following technical scheme:
the utility model provides a corrugated container board crosscut conveying mechanism, includes the frame, the discharge end of frame rotates and is provided with the driving shaft, the feed end of frame rotates and is provided with the driven shaft, the frame sets up the position of driving shaft and still is provided with and is used for driving shaft pivoted conveying motor, the driving shaft is provided with the conveyer belt with the driven shaft cladding, be provided with the bottom plate in the frame, the conveyer belt bottom surface is close to in order to support the conveying in order to press corrugated container board in.
By adopting the technical scheme, the bottom surface of the transmission belt is close to the top surface of the bottom plate, the transversely cut corrugated board is pressed against the top surface of the bottom plate by the transmission belt and moves along with the transmission belt, the corrugated board is pressed against and limited while being transmitted, namely, the pressing and conveying action is formed, and therefore the transmission effect of the transversely cut corrugated board is more stable.
Preferably, be provided with a plurality of action wheels on the driving shaft, be provided with a plurality of follow driving wheels on the driven shaft, the action wheel with equal and position one-to-one setting from driving wheel quantity, the conveyer belt also is provided with a plurality of, the quantity of conveyer belt equals with action wheel quantity, and is corresponding the action wheel with the equal cladding of follow driving wheel is provided with the conveyer belt.
By adopting the technical scheme, the transversely cut corrugated board is conveyed by the plurality of conveying belts, so that the corrugated board is stable in conveying effect, the abutting area of the corrugated board is reduced, the friction between the bottom surface of the corrugated board and the bottom plate is reduced, and the conveying safety of the corrugated board is improved.
Preferably, the middle part of the bottom plate is bent upwards to form an arc state.
Through adopting above-mentioned technical scheme, bottom plate middle part is curved upward for conveyer belt bottom cooperation bottom plate when laminating bottom plate produces the state of curved upward, and the conveyer belt is great to the pressure of bottom plate this moment, improves the pressure-feed effect to corrugated container board, makes corrugated container board conveying more stable.
Preferably, the bottom plate below is provided with three fixed plate, and is three the fixed plate sets up respectively in the feed end of frame, frame length direction's middle part and the discharge end of frame, and the fixed plate of frame feed end and the fixed plate of frame discharge end are located same horizontal plane, and the fixed plate at frame length direction middle part is higher than the fixed plate of frame feed end and discharge end, the both ends of bottom plate length direction respectively with the fixed plate fixed connection of frame feed end and discharge end, and the bottom plate is fixed in the fixed plate at frame length direction middle part along self length direction's middle part.
Through adopting above-mentioned technical scheme, bottom plate length direction's both ends respectively with the fixed plate fixed connection of frame feed end and discharge end, and the bottom plate is fixed in the fixed plate at frame length direction middle part along self length direction's middle part, realizes the stable state of buckling of bottom plate from this, and then the guarantee is to corrugated container board's conveying effect.
Preferably, the surface of the bottom plate contacting the conveyor belt is fixedly provided with a filler strip with a smooth top surface.
By adopting the technical scheme, the cushion strip with the smooth top surface reduces the friction force between the corrugated board and the cushion strip when the corrugated board is pressed and conveyed by the conveyor belt, avoids the corrugated board card pause caused by excessive friction, and ensures the smoothness of corrugated board conveying.
Preferably, the length direction of the filler strip is consistent with the length direction of the bottom plate, and the length of the filler strip is equal to that of the bottom plate.
Through adopting above-mentioned technical scheme, filler strip length direction is unanimous with bottom plate length direction, and at the in-process of filler strip cooperation corrugated container board conveying, the filler strip has certain limiting displacement to corrugated container board, produces the possibility of skew or deflection when reducing corrugated container board conveying, and is more stable to corrugated container board's conveying.
Preferably, the outer side surface of the conveying belt is fixedly provided with a plurality of elastic pressing blocks.
Through adopting above-mentioned technical scheme, have elastic briquetting when the conveyer belt conveys corrugated container board, the briquetting supports and presses in corrugated container board, and the briquetting produces elastic deformation because of the effect of pressure simultaneously, produces elastic stress to corrugated container board from this, and is more stable to corrugated container board's support pressure effect, and then makes the pressure-feed effect more stable.
Preferably, a front guide plate for guiding the transversely cut corrugated boards between the conveyor belt and the bottom plate is fixedly arranged at the feeding end of the machine frame.
By adopting the technical scheme, the front guide plate can guide the corrugated board to stably guide the corrugated board between the conveying belt and the bottom plate, so that the corrugated board is stable in state when reaching the conveying belt, and the conveying state of the corrugated board is further stable.
Preferably, the discharge end of the frame is fixedly provided with a rear guide plate for guiding the corrugated board in a discharging manner.
Through adopting above-mentioned technical scheme, back deflector leads corrugated container board when leaving from the conveyer belt, has ensured the stability of corrugated container board conveying ejection of compact, makes the whole data send process to corrugated container board more stable from this.
In summary, the present application includes at least one of the following beneficial technical effects:
1. the transversely cut corrugated board is pressed against the top surface of the bottom plate by the conveying belt and moves along with the conveying belt to form a pressing and conveying action, so that the conveying effect on the transversely cut corrugated board is more stable;
2. the bottom of the conveying belt is attached to the bottom plate and is matched with the bottom plate to generate an upward bending state, so that the pressing force of the conveying belt on the corrugated board on the bottom plate is larger, and the stability of the conveying effect of the corrugated board is further improved;
3. the cushion strip with the smooth top surface reduces the friction force of the corrugated board from the bottom plate when the corrugated board is pressed and conveyed by the conveying belt, avoids the jamming of the corrugated board caused by the overlarge friction between the bottom plate and the corrugated board, and ensures the smoothness of conveying the corrugated board.
Drawings
Fig. 1 is an overall structural view of an embodiment of the present application.
Fig. 2 is a partial exploded view of the crosscutting mechanism in an embodiment of the present application.
Fig. 3 is a side view of the interior of the housing in an embodiment of the present application.
Fig. 4 is an enlarged view of a portion a in fig. 1.
Fig. 5 is a partial structural view of the receiving mechanism in the embodiment of the present application.
Fig. 6 is an enlarged view of a portion B in fig. 5.
Description of reference numerals: 1. a frame; 11. a fixed part; 12. a front guide plate; 13. a fixing plate; 14. a base plate; 141. a filler strip; 15. a rear guide plate; 16. a receiving part; 161. a receiving groove; 17. a hole of abdication; 2. an upper cutting roller; 21. an upper cutter; 211. an upper mounting portion; 212. an upper limit block; 213. feeding a knife edge part; 22. pressing strips; 23. an upper limiting groove; 24. an upper gear; 3. a lower cutting roller; 31. a lower cutter; 311. a lower mounting portion; 313. a lower blade part; 32. pressing a strip; 34. a lower gear; 4. mounting an arm; 41. a connecting portion; 42. a cross-cut motor; 43. a hydraulic cylinder; 51. a drive shaft; 511. a driving wheel; 52. a driven shaft; 521. a driven wheel; 53. a conveyor belt; 531. briquetting; 54. a transfer motor; 6. mounting a plate; 61. connecting holes; 62. a lock hole; 621. locking the screw; 7. a mounting member; 71. a rotating part; 711. a hand wheel; 72. a threaded portion; 721. a limiting plate; 8. a material receiving guide roller; 81. connecting blocks; 811. mounting a screw hole; 9. and a material collecting plate.
Detailed Description
The present application is described in further detail below with reference to figures 1-6.
The embodiment of the application discloses corrugated container board crosscut conveying mechanism, refer to fig. 1, including frame 1, crosscut mechanism, transport mechanism and receiving agencies, transport mechanism sets up in order to convey corrugated container board to the discharge end from the feed end of frame 1 on frame 1, and the crosscut mechanism sets up in the feed end of frame 1, and receiving agencies sets up in the transport mechanism below.
Referring to fig. 1, the cross cutting mechanism includes upper cutting roller 2 and lower cutting roller 3, and the both sides of frame 1 width direction are all provided with installation arm 4 along the feed end of frame 1, and the one end of upper cutting roller 2 is rotated and is connected in one of them installation arm 4 and the other end rotates and connect in another installation arm 4, and the one end of lower cutting roller 3 is rotated and is connected in one of them installation arm 4 and the other end rotates and connect in another installation arm 4, and upper cutting roller 2 and lower cutting roller 3 parallel arrangement each other and the diameter of upper cutting roller 2 and lower cutting roller 3 equals. The mounting arm 4 has a connecting portion 41, the connecting portion 41 is plate-shaped, the longitudinal direction of the connecting portion 41 is the same as the longitudinal direction of the mounting arm 4, the frame 1 is further provided with a fixing portion 11 at a position connected to the mounting arm 4, a hydraulic cylinder 43 is provided between the fixing portion 11 and the connecting portion 41, the cylinder tube of the hydraulic cylinder 43 is rotatably connected to the fixing portion 11, and the end portion of the piston rod of the hydraulic cylinder 43 is rotatably connected to the connecting portion 41.
Referring to fig. 1 and 2, an upper cutter 21 is fixedly connected to the upper cutting roll 2, the upper cutter 21 includes an upper mounting portion 211 and an upper blade portion 213, the upper mounting portion 211 is in a long strip shape, the upper mounting portion 211 is fixed to the upper cutting roll 2, the upper mounting portion 211 is connected to the upper cutting roll 2 and is in a curved surface shape and is attached to the roll surface of the upper cutting roll 2, a plurality of upper limiting grooves 23 are formed in the positions of the upper mounting portion 211, the upper limiting blocks 212 are fixedly arranged at positions of the upper mounting portion 211 corresponding to the upper limiting grooves 23, and the corresponding upper limiting blocks 212 are inserted into the upper limiting grooves 23 to limit the upper mounting portion 211. The upper mounting part 211 is provided with a fixing through hole, the upper cutting roll 2 is provided with a fixing screw hole, the number of the fixing screw holes of the upper cutting roll 2 is equal to that of the fixing screw holes of the upper mounting part 211, the fixing screw holes are in one-to-one correspondence with the fixing screw holes of the upper mounting part, and the upper cutter 21 is fixed on the upper cutting roll 2 through screws. The lower cutting roll 3 is fixedly connected with a lower cutter 31, the lower cutter 31 is provided with a lower mounting part 311 and a lower blade part 313, the lower mounting part 311 is fixedly provided with a lower limiting block (not shown in the figure), the lower cutting roll 3 is provided with a lower limiting groove (not shown in the figure), the lower limiting groove and the lower limiting block are equal in number and are arranged in a one-to-one correspondence manner, the lower mounting part 311 and the lower cutting roll 3 are connected in the same manner as the upper mounting part 211 and the upper cutting roll 2, the lower cutter 31 and the upper cutter 21 are arranged in a corresponding manner, and the upper blade part 213 and the lower blade part 313 are matched with each other to perform transverse cutting work.
Referring to fig. 1, one end of the upper cutting roll 2 penetrates through the mounting arm 4 at the corresponding position, and the end of the upper cutting roll 2 penetrating through the mounting arm 4 is fixedly provided with an upper gear 24 coaxially arranged with the upper cutting roll 2; one end of the lower cutting roller 3 penetrates through the mounting arm 4 at the corresponding position, a lower gear 34 which is coaxial with the lower cutting roller 3 is fixedly arranged at the end part of the lower cutting roller 3 penetrating through the mounting arm 4, the upper gear 24 and the lower gear 34 are positioned on the same side of the width direction of the rack 1, and the upper gear 24 and the lower gear 34 are meshed with each other. The other end of the upper cutting roller 2 opposite to the end part of the fixed upper gear 24 is provided with a transverse cutting motor 42, the transverse cutting motor 42 is fixed on the mounting arm 4, and the rotating shaft of the transverse cutting motor 42 is coaxially and fixedly connected with the upper cutting roller 2. In other embodiments, the traverse motor 42 may also be disposed corresponding to the lower cutting roller 3, that is, the rotating shaft of the traverse motor 42 may also be coaxially and fixedly connected with the lower cutting roller 3 to drive the lower cutting roller 3 to rotate so as to drive the upper cutting roller 2 to move together through the engagement of the upper gear 24 and the lower gear 34. The feed end of frame 1 is fixed with preceding deflector 12, and the one end of preceding deflector 12 is fixed in frame 1 along one side of self length direction and the other end is fixed in frame 1 along the opposite side of self length direction. The front guide plate 12 is obliquely arranged, and the height of the front guide plate 12 gradually decreases from a position close to the lower cutting roller 3 to a position far away from the lower cutting roller 3.
Referring to fig. 1 and 2, a plurality of upper pressing strips 22 are fixedly arranged on the upper cutting roll 2, the upper pressing strips 22 are arc-shaped and have the same inner diameter as the upper cutting roll 2, the center line of the upper pressing strips 22 is coincident with the center line of the upper cutting roll 2, the inner rings of the upper pressing strips 22 are closely attached to the roll surface of the upper cutting roll 2, and the upper pressing strips 22 are parallel to each other and are distributed at equal intervals along the length direction of the upper cutting roll 2. The upper molding 22 is preferably made of an elastic material, in this embodiment, the upper molding 22 is made of rubber and fixed on the surface of the upper cutting roller 2 through gel, and in other embodiments, sponge or plastic can be used. The lower cutting roller 3 is fixedly provided with lower pressing strips 32, the number of the lower pressing strips 32 is equal to that of the upper pressing strips 22, the positions of the lower pressing strips are arranged in a one-to-one correspondence mode, and the connection mode of the lower pressing strips 32 and the lower pressing rollers is the same as that of the upper pressing strips 22 and the upper pressing rollers. The distance between the central line of the upper cutting roller 2 and the central line of the lower cutting roller 3 is equal to twice of the outer diameter of the upper pressing strip 22, namely, the outer ring surfaces of the upper pressing strip 22 and the lower pressing strip 32 which correspond to each other in position touch each other in the transverse cutting process.
Referring to fig. 1 and 3, the transmission mechanism includes a driving shaft 51 and a driven shaft 52, the driving shaft 51 is disposed at the discharging end of the frame 1, one end of the driving shaft 51 is rotatably connected to one side of the frame 1 along the width direction thereof, and the other end of the driving shaft 51 is rotatably connected to the other side of the frame 1 along the width direction thereof; the driven shaft 52 is arranged at the feeding end of the machine frame 1, one end of the driven shaft 52 is rotatably connected to one side of the machine frame 1 along the width direction of the machine frame 1, the other end of the driven shaft 52 is rotatably connected to the other side of the machine frame 1 along the width direction of the machine frame 1, the driven shaft 52 and the driving shaft 51 are arranged in parallel, a transmission motor 54 is further arranged at the position of the machine frame 1 where the driving shaft 51 is arranged, the transmission motor 54 is fixed to the machine frame 1, and a rotating shaft of the transmission motor 54 is coaxially. The driving shaft 51 is fixedly provided with a plurality of driving wheels 511, the central lines of the driving wheels 511 are all superposed with the central line of the driving shaft 51, and the driving wheels 511 are distributed at equal intervals along the length direction of the driving shaft 51; the driven shaft 52 is fixedly provided with a plurality of driven wheels 521, the center lines of the driven wheels 521 are all overlapped with the center line of the driven shaft 52, the driven wheels 521 are equidistantly distributed along the length direction of the driven shaft 52, the driven wheels 521 and the driving wheel 511 are equal in number and are arranged in a one-to-one correspondence mode, the corresponding driven wheels 521 and the driving wheel 511 are wrapped with the conveying belt 53, the surfaces of the conveying belt 53, which are in contact with the driving wheel 511 and the driven wheels 521, are inner side surfaces, the surfaces of the conveying belt 53, which are in contact with corrugated boards, are outer side surfaces, the outer side surfaces of the conveying belt 53 are fixedly provided with a plurality of pressing. The material of the pressing block 531 is preferably elastic material, in this embodiment, the material of the pressing block 531 is preferably rubber, and in other embodiments, the material of the pressing block 531 may also be elastic material such as sponge or plastic. In this embodiment, the pressing block 531 is fixed to the conveyor belt 53 by industrial glue.
Referring to fig. 1 and 3, a plurality of bottom plates 14 are disposed below the conveyor belt 53, the number of the bottom plates 14 is one less than that of the conveyor belt 53, both side edges of the bottom plates 14 in the width direction correspond to the lower side of the conveyor belt 53, and the side edges of the adjacent bottom plates 14 adjacent to each other in the width direction are located below the same conveyor belt 53. Bottom plate 14 below is provided with a plurality of fixed plates 13, fixed plate 13 length direction's both ends are fixed in frame 1 width direction's both sides respectively, fixed plate 13 quantity is three at least, fixed plate 13 quantity is three in this embodiment, three fixed plate 13 sets up respectively in the feed end of frame 1, frame 1 length direction's middle part and frame 1's discharge end, frame 1 feed end's fixed plate 13 and frame 1 discharge end's fixed plate 13 are located same horizontal plane, frame 1 length direction middle part's fixed plate 13 is higher than frame 1 feed end and discharge end's fixed plate 13. The length direction of the bottom plate 14 is consistent with the conveying direction of the corrugated board, two ends of the bottom plate 14 in the length direction are fixedly connected with the fixing plates 13 at the feeding end and the discharging end of the rack 1 respectively, and the middle of the bottom plate 14 in the length direction is fixed on the fixing plates 13 in the middle of the rack 1 in the length direction, namely the bottom plate 14 forms an arc-shaped state with the middle bent upwards. In other embodiments, the number of the fixing plates 13 may be more than three, as long as the bottom plate 14 is formed to be bent upward at the middle. Referring to fig. 4, the bottom plate 14 is fixedly provided with two smooth-top pad strips 141 along two sides of the width direction thereof, and the length direction of the pad strips 141 is the same as the length direction of the bottom plate 14 and the length thereof is equal to the length direction.
Referring to fig. 1 and 5, the receiving mechanism includes a rear guide plate 15, a receiving guide roller 8, and a receiving plate 9. The material receiving plate 9 is arranged below the rack 1, namely the material receiving plate 9 is positioned below the conveying mechanism. The receiving portion 16 is arranged at the position where the material receiving plate 9 is arranged on the frame 1, the receiving portions 16 are respectively arranged on two sides of the frame 1 along the width direction of the frame, two receiving grooves 161 are formed by the two receiving portions 16 and the frame 1, the material receiving plate 9 is placed on the receiving portion 16, and two sides of the material receiving plate 9 along the width direction of the frame 1 are respectively matched with the receiving grooves 161 at the corresponding positions. The rear guide plate 15 is arranged at the discharge end of the rack 1, the cross section of the rear guide plate 15 is in a semicircular arc shape, two ends of the rear guide plate 15 in the length direction are respectively fixed at two sides of the rack 1 along the width direction, the chord of the semicircular arc of the cross section of the rear guide plate 15 is vertically arranged, and the middle part of the rear guide plate 15 is bent towards the direction far away from the rack 1 so as to reversely guide the corrugated board discharged horizontally to the material receiving plate 9.
Referring to fig. 5 and 6, the material receiving guide roller 8 is disposed at the discharging end of the frame 1, and the length direction of the material receiving guide roller 8 is the same as the width direction of the frame 1. Frame 1 sets up the fixed mounting panel 6 that is provided with in position department of receiving material guide roll 8, mounting panel 6 is located the top of receiving material guide roll 8, mounting panel 6 level sets up, connecting hole 61 has been seted up on mounting panel 6, be provided with installed part 7 in the connecting hole 61, installed part 7 is the stock form, installed part 7 has rotation portion 71 and screw thread portion 72, rotation portion 71 is located screw thread portion 72 top, rotation portion 71 rotates and sets up in connecting hole 61, the fixed hand wheel 711 that is provided with in rotation portion 71 top. Frame 1 sets up the position of receiving material guide roll 8 and has seted up long banding hole of stepping down 17, receives the both ends of material guide roll 8 length direction and wears out outside frame 1 from the hole of stepping down 17 that corresponds position department respectively, receives the both ends of material guide roll 8 length direction and all is provided with connecting block 81, receives the tip and the connecting block 81 rotation of material guide roll 8 and is connected. The connecting block 81 is provided with an installation screw hole 811, a thread is provided on the peripheral side of the thread portion 72, and the thread portion 72 is inserted into the installation screw hole 811 and is in threaded engagement with the installation screw hole 811. The bottom end of screw thread portion 72 is fixed and is provided with limiting plate 721, and limiting plate 721 is circular and coaxial fixed connection with installed part 7. The mounting plate 6 is further provided with a locking hole 62, the locking hole 62 is a threaded hole, a center line of the locking hole 62 is perpendicular to a center line of the connecting hole 61, and the locking hole 62 is communicated with the connecting hole 61. The locking hole 62 is provided with a locking screw 621, the locking screw 621 is a hand screw, and the locking screw 621 is in threaded fit with the locking hole 62 and abuts against the rotating part 71 of the mounting member 7.
The implementation principle of the transverse cutting conveying mechanism for the corrugated boards in the embodiment of the application is as follows: the transmission motor 54 drives the driving shaft 51 to rotate, the driving wheel 511 on the driving shaft 51 rotates synchronously with the driving shaft 51, the driven wheel 521 and the driven shaft 52 rotate under the transmission action of the conveyor belt 53, the corrugated board is guided by the front guide plate 12 to enter between the bottom surface of the conveyor belt 53 and the top surface of the bottom plate 14 to be clamped, meanwhile, the conveyor belt 53 conveys the corrugated board forwards under the friction force of the corrugated board and the conveyor belt 53, the corrugated board is in contact with the cushion strip 141 with a smooth top surface, the friction force of the corrugated board on the bottom plate 14 or the cushion strip 141 is reduced, the stability of conveying the corrugated board along with the conveyor belt 53 is guaranteed, and the conveying effect of the transversely cut corrugated.
The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (9)

1. A corrugated container board crosscut conveying mechanism which characterized in that: the corrugated board conveying device comprises a rack (1), wherein a driving shaft (51) is rotatably arranged at the discharge end of the rack (1), a driven shaft (52) is rotatably arranged at the feed end of the rack (1), a conveying motor (54) used for driving the driving shaft (51) to rotate is further arranged at the position, where the driving shaft (51) is arranged, of the rack (1), a conveying belt (53) is arranged on the driving shaft (51) and the driven shaft (52) in a wrapping mode, a bottom plate (14) is arranged on the rack (1), and the bottom surface of the conveying belt (53) is close to the top surface of the bottom plate.
2. A corrugated board cross-cutting conveying mechanism as claimed in claim 1, wherein: the conveying belt conveyor is characterized in that a plurality of driving wheels (511) are arranged on the driving shaft (51), a plurality of driven wheels (521) are arranged on the driven shaft (52), the number of the driving wheels (511) is equal to that of the driven wheels (521), the positions of the driving wheels (511) are in one-to-one correspondence, a plurality of conveying belts (53) are also arranged, the number of the conveying belts (53) is equal to that of the driving wheels (511), and the corresponding driving wheels (511) and the driven wheels (521) are respectively coated with the conveying belts (53).
3. A corrugated board cross-cutting conveying mechanism as claimed in claim 1, wherein: the middle part of the bottom plate (14) is bent upwards to form an arc state.
4. A corrugated board cross-cutting conveying mechanism as claimed in claim 3, wherein: bottom plate (14) below is provided with three fixed plate (13), and is three fixed plate (13) set up respectively in the feed end of frame (1), frame (1) length direction's middle part and the discharge end of frame (1), and fixed plate (13) of frame (1) feed end and fixed plate (13) of frame (1) discharge end are located same horizontal plane, and fixed plate (13) at frame (1) length direction middle part are higher than fixed plate (13) of frame (1) feed end and discharge end, and bottom plate (14) length direction's both ends are fixed connection with fixed plate (13) of frame (1) feed end and discharge end respectively, and bottom plate (14) are fixed in fixed plate (13) at frame (1) length direction middle part along self length direction's middle part.
5. A corrugated board cross-cutting conveying mechanism as claimed in claim 3, wherein: and a filler strip (141) with a smooth top surface is fixedly arranged on the surface of the bottom plate (14) contacting the conveyor belt (53).
6. A corrugated board crosscutting conveying mechanism as claimed in claim 5, wherein: the length direction of the filler strip (141) is consistent with the length direction of the bottom plate (14), and the length of the filler strip (141) is equal to that of the bottom plate (14).
7. A corrugated board cross-cutting conveying mechanism as claimed in claim 1, wherein: the outer side surface of the conveyor belt (53) is fixedly provided with a plurality of elastic pressing blocks (531).
8. A corrugated board cross-cutting conveying mechanism as claimed in claim 1, wherein: the feeding end of the frame (1) is fixedly provided with a front guide plate (12) which guides the transversely cut corrugated boards to a position between the conveying belt (53) and the bottom plate (14).
9. A corrugated board cross-cutting conveying mechanism as claimed in claim 1, wherein: the discharge end of the frame (1) is fixedly provided with a rear guide plate (15) for guiding the corrugated board in a discharging manner.
CN202021293861.0U 2020-07-04 2020-07-04 Corrugated board transverse cutting conveying mechanism Expired - Fee Related CN212639412U (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CN202021293861.0U CN212639412U (en) 2020-07-04 2020-07-04 Corrugated board transverse cutting conveying mechanism

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
CN202021293861.0U CN212639412U (en) 2020-07-04 2020-07-04 Corrugated board transverse cutting conveying mechanism

Publications (1)

Publication Number Publication Date
CN212639412U true CN212639412U (en) 2021-03-02

Family

ID=74784429

Family Applications (1)

Application Number Title Priority Date Filing Date
CN202021293861.0U Expired - Fee Related CN212639412U (en) 2020-07-04 2020-07-04 Corrugated board transverse cutting conveying mechanism

Country Status (1)

Country Link
CN (1) CN212639412U (en)

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