CN111842415B

CN111842415B - Environment-friendly carton processing device

Info

Publication number: CN111842415B
Application number: CN202010635015.0A
Authority: CN
Inventors: 尚毅
Original assignee: Foshan Shunde Meida Color Printing Packaging Co ltd
Current assignee: Foshan Shunde Meida Color Printing Packaging Co ltd
Priority date: 2020-07-04
Filing date: 2020-07-04
Publication date: 2022-04-19
Anticipated expiration: 2040-07-04
Also published as: CN111842415A

Abstract

The invention relates to the field of carton recovery, in particular to an environment-friendly carton processing device. The invention aims to provide an environment-friendly carton processing device. An environment-friendly carton processing device comprises a supporting underframe, a control screen, a transmission mechanism, a first waist blocking extruding and supporting mechanism, a second waist blocking extruding and supporting mechanism, a transmission belt, a circulating blanking mechanism and a layering and drawing mechanism; one side of the supporting underframe is connected with the control screen; the lower part of the supporting underframe is connected with a transmission mechanism; one side of the supporting underframe is connected with the first waist blocking extruding and supporting mechanism, and the other side of the supporting underframe is connected with the second waist blocking extruding and supporting mechanism. According to the invention, paper sheets and the like which are inconvenient to bind are automatically plugged with the waste large cartons, and are packed in a matching manner, so that the recycling of cartons made of the same material is realized, and the manual operation efficiency is greatly improved.

Description

Environment-friendly carton processing device

Technical Field

The invention relates to the field of carton recovery, in particular to an environment-friendly carton processing device.

Background

Paper packaging is the largest sub-industry in the packaging industry; the express delivery drives traditional paper packaging business: the downstream industries of corrugated paper packaging mainly comprise soft drinks, beer, household refrigerators, air conditioners, express delivery and the like. From the downstream product yield, the air conditioner, the refrigerator, the beer and the soft drink yield increase at the same ratio and generally increase after 2016 years of bottoming, and the demand of power paper packaging is good. On the other hand, we consider that the important increment of paper packaging requirements comes from the high-speed development of express delivery business;

the paper packaging is huge in use amount, the paper can be recycled for the second time, the recycling rate is high, the waste of resources can be avoided, and when a plurality of large paper boxes are recycled, the paper boxes can be bound and transported to a recycling plant for processing; part of the cartons need to be recycled independently due to the problem of material, but part of the cartons fall off or some paper shreds which are inconvenient to bind synchronously exist, so that the cartons are generally collected manually and then independently arranged, and part of the cartons are plugged into the interlayer of the cartons manually, so that the operation method is extremely time-consuming and the production efficiency is not high; moreover, paper scraps and paper blocks made of different materials are easily mixed together, and the recovery and transportation of the same material cannot be guaranteed;

in summary, there is a need to develop an environment-friendly carton processing device to overcome the above problems.

Disclosure of Invention

In order to overcome the problem that part of cartons need to be recycled independently due to the material, but part of paper sheets fall off or some paper shreds which are inconvenient to bind synchronously exist, the paper shreds are generally collected manually and then are independently sorted, and part of the paper shreds are manually plugged into the interlayer of the cartons, so that the operation method is extremely time-consuming and the production efficiency is not high; the invention also provides an environment-friendly carton processing device, which solves the technical problem that paper scraps and paper blocks made of different materials are easily mixed together and the recycling and transportation of the same material cannot be guaranteed.

The invention is achieved by the following specific technical means:

an environment-friendly carton processing device comprises a supporting underframe, a control screen, a transmission mechanism, a first waist blocking extruding and supporting mechanism, a second waist blocking extruding and supporting mechanism, a transmission belt, a circulating blanking mechanism and a layering and drawing mechanism; one side of the supporting underframe is connected with the control screen; the lower part of the supporting underframe is connected with a transmission mechanism; one side of the supporting underframe is connected with the first waist blocking extruding and supporting mechanism, and the other side of the supporting underframe is connected with the second waist blocking extruding and supporting mechanism; one side of the supporting bottom frame is connected with the circulating blanking mechanism, and the other side of the supporting bottom frame is connected with the fixed-layer drawing mechanism; one side of the first waist blocking extruding and supporting mechanism is connected with the second waist blocking extruding and supporting mechanism through a transmission belt.

Further, the second waist blocking and squeezing mechanism comprises a side supporting frame, a first driving wheel, a first driving rod, a first gear, a second gear, a first toothed bar, a second toothed bar, a squeezing plate, a top bead, an inclined baffle, a second driving wheel, a first rotating shaft, a backup plate, a first linear guide rail, a first extending plate, a second linear guide rail, a second extending plate, a first electric push rod, an electric rotary disc and a sucker; the side supporting frame is in transmission connection with the first transmission rod; the side supporting frame is rotationally connected with the first rotating shaft; the middle upper part in the side support frame is connected with the extrusion support plate in a sliding way; the outer surface of the first driving wheel is in transmission connection with the first driving rod; one side of the outer surface of the first transmission rod is in transmission connection with the first gear, and the other side of the outer surface of the first transmission rod is in transmission connection with the second gear; the upper part of the first gear is meshed with the first rack; the upper part of the second gear is meshed with the second rack; welding the upper part of the first toothed bar with the extrusion supporting plate; welding the end faces of the extrusion supporting plates with eleven top beads at equal intervals; welding the upper part of the extrusion supporting plate with the inclined baffle; the outer ring surface of the first driving wheel is in transmission connection with the second driving wheel through a connecting belt; one end of the outer ring surface of the first rotating shaft is welded with the backup plate; a first linear guide rail is arranged above and below one side of the backup plate, and a second linear guide rail is arranged above and below the other side of the backup plate; the middle part of the backup plate is connected with a first electric push rod through a bolt; the two first linear guide rails are in sliding connection with the first extension plate; the two second linear guide rails are in sliding connection with the second extension plate; one side of the first electric push rod is connected with the electric turntable through a bolt; one side of the electric turntable is connected with the sucker through a bolt; the lower part and the rear side of the side supporting frame are both connected with the supporting underframe; the inner axle center of the second driving wheel is connected with the fixed layer split-drawing mechanism.

Further, the circulating blanking mechanism comprises a material collecting cabin, a second electric push rod, a J-shaped push plate, a third electric push rod, a lower extrusion block, a discharging table and a third linear guide rail; the inner side of the material collecting cabin is connected with two second electric push rods at equal intervals through bolts; the inner side of the material collecting cabin is connected with three third electric push rods at equal intervals through bolts; one side of the material collecting cabin is welded with the material discharging platform; one side of each second electric push rod is connected with the J-shaped push plate through a bolt; one side of each third electric push rod is connected with the lower extrusion block through a bolt, and one side of each third electric push rod and the lower extrusion block are both positioned in the discharging table; three third linear guide rails are arranged below the material collecting cabin; and the lower parts of the three third linear guide rails are connected with the supporting underframe.

Further, the fixed-layer split-pulling mechanism comprises a motor, a first driving disc, a driving flat belt, a double limiting rod, a fourth linear guide rail, a second driving disc, a second rotating shaft, a third driving disc, a worm, a turbine, a third rotating shaft, a third driving wheel, a fourth rotating shaft, a fixed seat, a fifth driving wheel, a sixth driving wheel, a long gear, a first slide rail seat, a second slide rail seat, a third gear, a side supporting plate, a first bevel gear, a second bevel gear, a fifth rotating shaft, an L-shaped fixed frame, a fifth linear guide rail and a pull-supporting mechanism; the output shaft of the motor is rotationally connected with the first transmission disc; the outer surface of the first driving disc is in transmission connection with the flat transmission belt; the upper part of the middle part in the transmission flat belt and the lower part of the middle part in the transmission flat belt are respectively limited with a group of double limiting rods; the opposite surfaces of the two groups of double limiting rods are respectively welded with the fourth linear guide rail; a third transmission disc is arranged on one side, away from the first transmission disc, of the transmission flat belt; a second transmission disc is arranged in front of the third transmission disc; the inner axis of the second transmission disc is inserted with the second rotating shaft; the inner axis of the third transmission disc is inserted with the worm; the upper part of the worm is meshed with the turbine; the inner axis of the turbine is inserted with the third rotating shaft; the outer surface of the third rotating shaft is spliced with a third driving wheel; the outer ring surface of the third driving wheel is in transmission connection with the fourth driving wheel through a connecting belt; the inner axle center of the fourth transmission wheel is inserted with the fourth rotating shaft; the middle part of the outer surface of the fourth rotating shaft is inserted into the fixed seat; the outer surface of the fourth rotating shaft is spliced with a fifth driving wheel; the outer ring surface of the fifth driving wheel is in transmission connection with the sixth driving wheel through a connecting belt; the inner axle center of the sixth transmission wheel is inserted with the long gear through a connecting shaft; one side of the long gear is spliced with the first slide rail seat, and the other side of the long gear is spliced with the second slide rail seat; the lower part of the long gear is meshed with a third gear; one side of the axle center of the third gear is spliced with the side supporting plate, and the other side of the axle center of the third gear is spliced with the first bevel gear; the first bevel gear is meshed with the second bevel gear; the inner axis of the second bevel gear is spliced with the fifth rotating shaft; the front side of the outer surface of the fifth rotating shaft and the rear side of the outer surface of the fifth rotating shaft are inserted into the L-shaped fixing frame; two groups of fifth linear guide rails are arranged below the L-shaped fixing frame; three groups of bracing mechanisms are equidistantly arranged on the outer surface of the fifth rotating shaft; the lower part of the motor is connected with the supporting underframe; the lower part of the fourth linear guide rail is connected with the supporting underframe; the outer surface of the second rotating shaft is connected with the supporting underframe; the outer surface of the worm is connected with the supporting underframe; the outer surface of the third rotating shaft is connected with the supporting underframe; the outer surface of the fourth rotating shaft is connected with the supporting underframe; the fixed seat supporting underframe is connected; the lower part of the first slide rail seat is connected with a supporting underframe; the lower part of the second slide rail seat is connected with the supporting underframe; and the lower parts of the two groups of fifth linear guide rails are connected with the supporting underframe.

Furthermore, the bracing mechanism comprises a seventh driving wheel, an eighth driving wheel, a fourth transmission rod, a second transmission rod, a third transmission rod, a sixth rotating shaft and an inserting plate; the seventh driving wheel is in transmission connection with the eighth driving wheel through a connecting belt; the eighth driving wheel is in transmission connection with the fourth driving rod; the fourth transmission rod is in transmission connection with the second transmission rod; the second transmission rod is in transmission connection with the third transmission rod; the third transmission rod is in transmission connection with the sixth rotating shaft; the second transmission rod is welded with the inserting plate; the inner axle center of the seventh transmission wheel is inserted with the fifth rotating shaft; the inner axis of the eighth transmission wheel is inserted into the L-shaped fixing frame; the outer surface of the sixth rotating shaft is inserted into the L-shaped fixing frame.

Furthermore, when one side of the first waist blocking extruding and supporting mechanism is connected with the second waist blocking extruding and supporting mechanism through a transmission belt, the transmission belt is in a twisted reverse 8 shape.

Furthermore, a guide rail is arranged on one side of the transmission mechanism, which is positioned on the first waist blocking and extruding and supporting mechanism and one side of the second waist blocking and extruding and supporting mechanism, and a plurality of groups of support rollers capable of rolling are connected to the guide rail.

Furthermore, the lower part of the discharging table is in a closing-up shape.

Compared with the prior art, the invention has the following beneficial effects:

1. in order to solve the problem that part of cartons need to be recycled independently due to the material, but part of paper sheets fall off or some paper shreds which are inconvenient to bind synchronously exist, the paper shreds are generally collected manually and then are independently arranged, and part of the paper shreds are manually plugged into the interlayer of the cartons, so that the operation method is extremely time-consuming and the production efficiency is not high; moreover, paper scraps and paper blocks made of different materials are easily mixed together, and the recovery and transportation of the same material cannot be guaranteed;

2. a first waist blocking extruding and supporting mechanism, a second waist blocking extruding and supporting mechanism, a circulating blanking mechanism and a fixed-layer drawing mechanism are designed; when in use, the environment-friendly carton processing device is firstly placed at a position to be used, after the environment-friendly carton processing device is fixed, the external power supply is connected, then the control panel controls the operation, then the waste large cartons are folded and placed on the transmission mechanism, so that the waste large cartons can be clamped in the supporting underframe and driven by the transmission mechanism to move forwards, then the transmission mechanism stops operating when the waste large cartons move to the middle part of the opposite surface of the first waist blocking squeezing and supporting mechanism and the second waist blocking squeezing and supporting mechanism, the fixed layer separating and pulling mechanism drives the second waist blocking squeezing and supporting mechanism to transmit, the second waist blocking squeezing and supporting mechanism transmits a transmission belt to drive the first waist blocking and squeezing and supporting mechanism to operate oppositely, the first waist blocking and squeezing and supporting mechanism and the second waist blocking and squeezing and supporting mechanism squeeze the waste large cartons at the lower position of one third of the large cartons, so that the upper positions of two thirds of the large cartons can be opened for a certain space in a fan shape, secondly, the space of the waste large carton is enlarged under the coordination of a fixed-layer drawing mechanism, then a part of smaller paper sheets are pushed down into the waste large carton through a circulating blanking mechanism, after certain saturation is achieved, the upper part of the waste large carton can be manually packed and fixed, then the waste large carton is turned over for one hundred eighty degrees through a first waist blocking extruding and supporting mechanism and a second waist blocking extruding and supporting mechanism, and then the steps are repeated;

3. this device has realized carrying out automation with the big carton of abandonment such as scraps of paper that will inconveniently bind and has filled up, and the cooperation is packed simultaneously, realizes the carton of same material and retrieves, improves manual operation efficiency greatly.

Drawings

FIG. 1 is a schematic perspective view of a first embodiment of the present invention;

FIG. 2 is a schematic perspective view of a second embodiment of the present invention;

FIG. 3 is a third perspective view of the present invention;

FIG. 4 is a schematic view of a first configuration of a second lumbar support mechanism according to the present invention;

FIG. 5 is a second structural view of a second lumbar support mechanism according to the present invention;

FIG. 6 is a schematic structural view of a circular blanking mechanism of the present invention;

FIG. 7 is a schematic structural view of a constant-level split-drawing mechanism according to the present invention;

FIG. 8 is a schematic structural view of a bracing mechanism of the present invention;

fig. 9 is an enlarged view of the region R of the present invention.

The labels in the figures are: 1-a support chassis, 2-a control panel, 3-a transmission mechanism, 4-a first waist-stop support mechanism, 5-a second waist-stop support mechanism, 6-a transmission belt, 7-a circulating blanking mechanism, 8-a layering split-pulling mechanism, 501-a side support frame, 502-a first transmission wheel, 503-a first transmission rod, 504-a first gear, 505-a second gear, 506-a first toothed bar, 507-a second toothed bar, 508-a support plate, 509-a top bead, 5010-a diagonal baffle, 5011-a second transmission wheel, 5012-a first rotating shaft, 5013-a backing plate, 5014-a first linear guide, 5015-a first extension plate, 5016-a second linear guide, 5017-a second extension plate, 5018-a first electric push rod, 5019-an electric rotary table, 5020-a sucker, 701-a material collecting cabin, 702-a second electric push rod, 703-a J-shaped push plate, 704-a third electric push rod, 705-a lower extrusion block, 706-a material discharging platform, 707-a third linear guide rail, 801-a motor, 802-a first transmission disc, 803-a transmission flat belt, 804-a double limiting rod, 805-a fourth linear guide rail, 806-a second transmission disc, 807-a second rotating shaft, 808-a third transmission disc, 809-a worm, 8010-a turbine, 8011-a third rotating shaft, 8012-a third transmission wheel, 8013-a fourth transmission wheel, 8014-a fourth rotating shaft, 8015-a fixed seat, 8016-a fifth transmission wheel, 8017-a sixth transmission wheel, 8018-a long gear, 8019-a first slide rail seat, 8020-a second slide rail seat, 8021-a third gear, 8022-a side support plate, 8023-a first bevel gear, 8024-a second bevel gear, 8025-a fifth rotating shaft, 8026-an L-shaped fixing frame, 8027-a fifth linear guide rail, 8028-a pulling and supporting mechanism, 802801-a seventh driving wheel, 802802-an eighth driving wheel, 802803-a fourth driving rod, 802804-a second driving rod, 802805-a third driving rod, 802806-a sixth rotating shaft and 802807-an inserting plate.

Detailed Description

The invention is further described below with reference to the figures and examples.

Examples

An environment-friendly carton processing device is shown in figures 1-9 and comprises a supporting underframe 1, a control screen 2, a transmission mechanism 3, a first waist-blocking extruding and supporting mechanism 4, a second waist-blocking extruding and supporting mechanism 5, a transmission belt 6, a circulating blanking mechanism 7 and a layering and drawing mechanism 8; one side of the supporting underframe 1 is connected with the control screen 2; the lower part of the supporting underframe 1 is connected with a transmission mechanism 3; one side of the supporting underframe 1 is connected with a first waist blocking extruding and supporting mechanism 4, and the other side of the supporting underframe 1 is connected with a second waist blocking extruding and supporting mechanism 5; one side of the supporting underframe 1 is connected with a circulating blanking mechanism 7, and the other side of the supporting underframe 1 is connected with a fixed-layer drawing mechanism 8; one side of the first waist blocking and extruding mechanism 4 is connected with a second waist blocking and extruding mechanism 5 through a transmission belt 6.

The second waist blocking squeezing and supporting mechanism 5 comprises a side supporting frame 501, a first driving wheel 502, a first driving rod 503, a first gear 504, a second gear 505, a first toothed bar 506, a second toothed bar 507, a squeezing plate 508, a top ball 509, an inclined baffle 5010, a second driving wheel 5011, a first rotating shaft 5012, a backup plate 5013, a first linear guide rail 5014, a first extension plate 5015, a second linear guide rail 5016, a second extension plate 5017, a first electric push rod 5018, an electric rotating disc 5019 and a sucker 5020; the side support frame 501 is in transmission connection with a first transmission rod 503; the side support frame 501 is rotatably connected with a first rotating shaft 5012; the middle upper part in the side support frame 501 is connected with the extrusion support plate 508 in a sliding way; the outer surface of the first driving wheel 502 is in driving connection with a first driving rod 503; one side of the outer surface of the first transmission rod 503 is in transmission connection with a first gear 504, and the other side of the outer surface of the first transmission rod 503 is in transmission connection with a second gear 505; a first gear 504 is meshed with a first rack 506; the upper part of the second gear 505 is meshed with a second rack 507; the upper part of the first toothed bar 506 is welded with the extrusion supporting plate 508; the end surface of the extrusion supporting plate 508 is welded with eleven top beads 509 at equal intervals; the upper part of the extrusion supporting plate 508 is welded with the inclined baffle 5010; the outer annular surface of the first driving wheel 502 is in driving connection with a second driving wheel 5011 through a connecting belt; one end of the outer annular surface of the first rotating shaft 5012 is welded with the backup plate 5013; a first linear guide rail 5014 is arranged above and below one side of the backup plate 5013, and a second linear guide rail 5016 is arranged above and below the other side of the backup plate 5013; the middle part of the backup plate 5013 is in bolt connection with a first electric push rod 5018; both first linear guide rails 5014 are slidably connected with the first extension plate 5015; the two second linear guide rails 5016 are both in sliding connection with the second extension plate 5017; one side of the first electric push rod 5018 is in bolted connection with the electric turntable 5019; one side of the electric turntable 5019 is in bolt connection with the sucker 5020; the lower part and the rear side of the side support frame 501 are connected with the support chassis 1; the inner axis of the second transmission wheel 5011 is connected with the fixed layer split-drawing mechanism 8.

The circulating blanking mechanism 7 comprises a collecting cabin 701, a second electric push rod 702, a J-shaped push plate 703, a third electric push rod 704, a lower extrusion block 705, a discharging platform 706 and a third linear guide rail 707; the inner side of the material collecting cabin 701 is connected with two second electric push rods 702 at equal intervals through bolts; the inner side of the material collecting cabin 701 is connected with three third electric push rods 704 at equal intervals through bolts; one side of the collecting cabin 701 is welded with the discharging platform 706; one side of each of the two second electric push rods 702 is connected with the J-shaped push plate 703 through a bolt; one side of each of the three third electric push rods 704 is connected with the lower extrusion block 705 through a bolt, and one side of each of the three third electric push rods 704 and the lower extrusion block 705 are positioned in the discharge table 706; three third linear guide rails 707 are arranged below the material collecting cabin 701; the lower parts of the three third linear guide rails 707 are all connected with the supporting underframe 1.

The fixed-layer split-pulling mechanism 8 comprises a motor 801, a first driving disc 802, a driving flat belt 803, a double limiting rod 804, a fourth linear guide rail 805, a second driving disc 806, a second rotating shaft 807, a third driving disc 808, a worm 809, a turbine 8010, a third rotating shaft 8011, a third driving wheel 8012, a fourth driving wheel 8013, a fourth rotating shaft 8014, a fixed seat 8015, a fifth driving wheel 8016, a sixth driving wheel 8017, a long gear 8018, a first slide rail seat 8019, a second slide rail seat 8020, a third gear 8021, a side supporting plate 8022, a first bevel gear 8023, a second bevel gear 8024, a fifth rotating shaft 8025, an L-shaped fixed mount 8026, a fifth linear guide rail 8027 and a pull-up mechanism 8028; an output shaft of the motor 801 is rotationally connected with the first transmission disc 802; the outer surface of the first transmission disc 802 is in transmission connection with a transmission flat belt 803; the upper part of the inner middle part of the transmission flat belt 803 and the lower part of the inner middle part are respectively limited with a group of double limiting rods 804; the opposite surfaces of the two groups of double limiting rods 804 are respectively welded with the fourth linear guide rails 805; a third transmission disc 808 is arranged on one side, away from the first transmission disc 802, of the transmission flat belt 803; a second transmission disc 806 is arranged in front of the third transmission disc 808; the inner axis of the second transmission disc 806 is inserted into the second rotating shaft 807; the inner axis of the third transmission disc 808 is inserted into the worm 809; the upper part of the worm 809 is meshed with a turbine 8010; the inner axis of the turbine 8010 is inserted into the third rotating shaft 8011; the outer surface of the third rotating shaft 8011 is spliced with the third driving wheel 8012; the outer ring surface of the third driving wheel 8012 is in transmission connection with the fourth driving wheel 8013 through a connecting belt; the inner axis of the fourth driving wheel 8013 is spliced with the fourth rotating shaft 8014; the middle part of the outer surface of the fourth rotating shaft 8014 is inserted into the fixed seat 8015; the outer surface of the fourth rotating shaft 8014 is spliced with the fifth driving wheel 8016; the outer ring surface of the fifth driving wheel 8016 is in transmission connection with the sixth driving wheel 8017 through a connecting belt; the inner axis of the sixth driving wheel 8017 is inserted into the long gear 8018 through a connecting shaft; one side of long gear 8018 is plugged with first slide rail seat 8019, and the other side of long gear 8018 is plugged with second slide rail seat 8020; a third gear 8021 is meshed below long gear 8018; one side of the axle center of the third gear 8021 is inserted into the side supporting plate 8022, and the other side of the axle center of the third gear 8021 is inserted into the first bevel gear 8023; the first bevel gear 8023 meshes with the second bevel gear 8024; the inner axis of the second bevel gear 8024 is inserted into the fifth rotating shaft 8025; the front side of the outer surface and the rear side of the outer surface of the fifth rotating shaft 8025 are inserted into the L-shaped fixing frame 8026; two groups of fifth linear guide rails 8027 are arranged below the L-shaped fixing frame 8026; three groups of bracing mechanisms 8028 are equidistantly arranged on the outer surface of the fifth rotating shaft 8025; the lower part of the motor 801 is connected with the supporting underframe 1; the lower part of the fourth linear guide 805 is connected with the supporting underframe 1; the outer surface of the second rotating shaft 807 is connected with the supporting chassis 1; the outer surface of the worm 809 is connected with the supporting underframe 1; the outer surface of the third rotating shaft 8011 is connected with the supporting chassis 1; the outer surface of the fourth rotating shaft 8014 is connected with the supporting chassis 1; the fixing seat 8015 supports the chassis 1 to be connected; the lower part of the first slide rail seat 8019 is connected with the support chassis 1; the lower part of the second slide rail seat 8020 is connected with the supporting underframe 1; the lower parts of the two groups of fifth linear guide rails 8027 are connected with the supporting underframe 1.

The tension mechanism 8028 comprises a seventh driving wheel 802801, an eighth driving wheel 802802, a fourth driving rod 802803, a second driving rod 802804, a third driving rod 802805, a sixth rotating shaft 802806 and an inserting plate 802807; the seventh driving wheel 802801 is in driving connection with the eighth driving wheel 802802 through a connecting belt; the eighth driving wheel 802802 is in driving connection with the fourth driving rod 802803; the fourth transmission rod 802803 is in transmission connection with the second transmission rod 802804; the second transmission rod 802804 is in transmission connection with the third transmission rod 802805; the third transmission rod 802805 is in transmission connection with the sixth rotating shaft 802806; the second transmission rod 802804 is welded with the insert plate 802807; the inner axle center of the seventh driving wheel 802801 is spliced with the fifth rotating shaft 8025; the inner axis of the eighth driving wheel 802802 is inserted into the L-shaped fixing frame 8026; the outer surface of the sixth rotating shaft 802806 is inserted into the L-shaped fixing frame 8026.

When one side of the first waist blocking and extruding mechanism 4 is connected with the second waist blocking and extruding mechanism 5 through the transmission belt 6, the transmission belt 6 is in a twisted reverse 8 shape.

One side of the transmission mechanism 3, which is located at the first waist blocking and extruding mechanism 4 and the second waist blocking and extruding mechanism 5, is provided with a guide rail, and the guide rail is connected with a plurality of groups of support rollers capable of rolling.

Wherein, the lower part of the discharging platform 706 is in a closing-in shape.

The working principle is as follows: when in use, the environment-friendly carton processing device is firstly placed at a position to be used, after the environment-friendly carton processing device is fixed, the environment-friendly carton processing device is externally connected with a power supply, then the operation is controlled by the control screen 2, then the waste large cartons are folded and then placed on the transmission mechanism 3, so that the waste large cartons can be clamped in the supporting underframe 1 and driven by the transmission mechanism 3 to move forwards, then the transmission mechanism 3 stops operating when the waste large cartons move to the middle part of the opposite surfaces of the first waist blocking squeezing and supporting mechanism 4 and the second waist blocking and squeezing and supporting mechanism 5, the fixed layer separating and pulling mechanism 8 drives the second waist blocking and squeezing and supporting mechanism 5 to transmit, the second waist blocking and squeezing and supporting mechanism 5 transmits the transmission belt 6 to drive the first waist blocking and squeezing and supporting mechanism 4 to operate oppositely, the first waist blocking and squeezing and supporting mechanism 4 and the second waist blocking and squeezing and supporting mechanism 5 squeeze the waste large cartons at the waist at the one third lower position of the large cartons, so that the two thirds upper position of the large cartons can be opened with a certain space in a fan shape, the space of the waste large carton is enlarged under the matching of the fixed-layer drawing mechanism 8, then, part of small paper scraps are pushed down into the waste large carton through the circulating blanking mechanism 7, after certain saturation is reached, the upper part can be manually packaged and fixed, then, the waste large carton is overturned by one hundred and eighty degrees through the first waist blocking extruding and supporting mechanism 4 and the second waist blocking extruding and supporting mechanism 5, the steps are repeated, the paper scraps which are inconvenient to bind and the waste large carton are automatically plugged, and meanwhile, the waste large carton and the waste large carton are packaged in a matching mode, so that the carton recovery of the same material is realized, and the manual operation efficiency is greatly improved.

When the second rotating shaft 807 rotates, the second driving wheel 5011 is driven to drive the first driving wheel 502 on the side support frame 501 to rotate, when the first driving wheel 502 rotates, the first driving rod 503 is driven to simultaneously drive the first gear 504 and the second gear 505 to rotate, the first gear 504 and the second gear 505 rotate and are respectively meshed with the first rack 506 and the second rack 507 to move left and right, the first rack 506 and the second rack 507 move left and right and simultaneously drive the extrusion support plate 508 to move left and right, when the extrusion support plate 508 moves, the top bead 509 is driven to carry out waist blocking and extrusion support at one-third lower position on the waste large carton, when the extrusion support plate 508 moves, the top bead 509 is driven to carry out waist blocking and extrusion support at two sides, when the extrusion support plate 508 moves, the inclined baffle 5010 moves synchronously, when the inclined baffle 5013 leans against the backing plate 5013, the backing plate 5013 can be driven to rotate on the first rotating shaft 5012 to incline by a certain angle and be attached to the waste large carton, in order to prevent the waste large carton from being more stable during extrusion support, the first linear guide rail 5014 and the second linear guide rail 5016 can drive the first extension plate 5015 and the second extension plate 5017 to extend and retract simultaneously to increase the protection area, when the circular blanking mechanism 7 pushes down a part of smaller paper sheets into a waste large carton, after reaching a certain saturation, the upper part of the paper sheets can be manually packed and fixed, then the waste large carton is overturned by one hundred eighty degrees through the first waist blocking extrusion mechanism 4 and the second waist blocking extrusion mechanism 5, when the paper sheets are overturned, the electric rotary disc 5019 and the suction disc 5020 are driven to adsorb to the waste large carton through the extension and retraction of the first electric push rod 5018, the electric rotary disc 5019 drives the waste large carton to overturn, at the moment, one side of the first waist blocking extrusion mechanism 4 and the second waist blocking extrusion mechanism 5 inside the transmission mechanism 3 is provided with one guide rail, and a plurality of rollable support rollers connected to the guide rail simultaneously move to one side, so that an increased rotation space is arranged below the waste large carton, after the rotation, the plurality of groups of support rollers capable of rolling reset simultaneously; when the increase abandonment big carton adds the inconvenient scraps of paper of binding of stopper, can cooperate the stopper mouth that adds that increases abandonment big carton to the cooperation is turned over the stopper that adds of both sides.

When plugging is performed, falling or shredded paper blocks are placed into the collecting cabin 701 through a feeding pipe arranged outside, then the three third linear guide rails 707 drive the collecting cabin 701 to move towards one side of a large waste carton, the two second electric push rods 702 stretch and drive the J-shaped push plate 703 to push the falling or shredded paper blocks to one side of the discharging table 706, then the three third electric push rods 704 are controlled to stretch and drive the lower extrusion block 705 to extrude the falling or shredded paper blocks through an outlet below the discharging table 706, and meanwhile, the paper blocks are plugged into a large carton interlayer; automatic matching, plugging and falling or paper scrap blocks and paper scraps are realized.

When the second waist blocking and supporting mechanism 5 needs to be controlled to operate, the fourth linear guide rail 805 drives the two groups of double limiting rods 804 to push the transmission flat belts 803, so that the transmission flat belts 803 move forwards to be respectively transmitted with the first transmission disc 802 and the second transmission disc 806, and the width of the first transmission disc 802 is equal to the combined width of the second transmission disc 806 and the third transmission disc 808; then the motor 801 rotates to drive the first transmission disc 802 to drive the transmission flat belt 803 to transmit the second transmission disc 806, the second transmission disc 806 rotates to drive the second rotating shaft 807 to rotate to drive the second transmission wheel 5011 to rotate, so that the second waist blocking and squeezing mechanism 5 operates; when the bracing mechanism 8028 needs to be controlled to operate, the fourth linear guide 805 drives the two sets of double limiting rods 804 to push the transmission flat belt 803, so that the transmission flat belt 803 moves backwards to be respectively transmitted with the first transmission disc 802 and the third transmission disc 808, the third transmission disc 808 drives the worm 809 to drive the turbine 8010 to rotate, the turbine 8010 rotates to drive the third rotating shaft 8011 to drive the third transmission wheel 8012 to drive the fourth transmission wheel 8013 to rotate, the fourth transmission wheel 8013 rotates to drive the fourth rotating shaft 8014 on the fixing seat 8015 to drive the fifth transmission wheel 8016 to drive the sixth transmission wheel 8017 to rotate, the sixth transmission wheel 8017 rotates to drive the long gear 8018 to rotate, the first slide rail seat 8019 and the second slide rail seat 8020 can drive the long gear 8018 to move in a matching manner, and when meshing engagement with the third gear 8021, intermittent control is performed, that is, when the stretching mechanism 8028 is stopped after operation, the long gear 8018 and the third gear 8021 are not engaged, so that the stretching mechanism 8028 maintains the state of stretching the carton; then when the third gear 8021 on the side supporting plate 8022 rotates, the first bevel gear 8023 is driven to be meshed with the second bevel gear 8024 to drive the fifth rotating shaft 8025 to drive the three groups of pulling and supporting mechanisms 8028 on the L-shaped fixing frame 8026 to operate, and the two groups of fifth linear guide rails 8027 can also be matched with each other to drive the L-shaped fixing frame 8026 to move, and are matched with the three groups of pulling and supporting mechanisms 8028 on the paper boxes at different positions to perform layer-by-layer plugging; the linkage of the second waist blocking and extruding and supporting mechanism 5 is realized, and the carton is simultaneously split and stretched in a matching manner.

When the fifth rotating shaft 8025 rotates, the fifth rotating shaft 8025 drives the seventh driving wheel 802801 to rotate and simultaneously drives the eighth driving wheel 802802 to rotate, the eighth driving wheel 802802 rotates to drive the fourth driving rod 802803 to rotate and drive the second driving rod 802804 to drive the inserting plate 802807 to realize an approximately vertical elliptical track under the matching of the third driving rod 802805 and the sixth rotating shaft 802806, the paper box can be pulled open when the inserting plate 802807 falls, the paper box stops after being pulled open, a certain space is formed between the paper box and the paper box, and then the circulating blanking mechanism 7 is used for matched blanking; the multiple groups of pulling and supporting mechanisms 8028 can be matched to pull the cartons apart in different sections.

When one side of the first waist blocking and extruding mechanism 4 is connected with the second waist blocking and extruding mechanism 5 through the transmission belt 6, the transmission belt 6 is in a twisted inverted 'T' shape, and can drive the first waist blocking and extruding mechanism 4 and the second waist blocking and extruding mechanism 5 to realize forward and backward rotation.

Wherein, a guide rail is arranged at one side of the first waist blocking extruding and supporting mechanism 4 and one side of the second waist blocking extruding and supporting mechanism 5 in the transmission mechanism 3, and a plurality of groups of rolling supporting rollers are connected on the guide rail; can prevent hindering the carton from overturning when the carton overturns.

Wherein, the lower part of the discharging platform 706 is in a closing-up shape; can carry out the unloading by spacing.

The above description is provided only to illustrate the technical concept of the present invention, and those skilled in the art will appreciate that various changes and modifications can be made without changing the essential features of the present invention. Accordingly, the exemplary embodiments of the present invention are provided for illustrative purposes only, and are not intended to limit the technical concept of the present invention. The scope of the technical idea of the present disclosure is not limited thereto. Therefore, it should be understood that the above-described exemplary embodiments are illustrative in all respects, not restrictive of the disclosure. The scope of the present disclosure should be construed based on the claims, and all technical ideas within the equivalent scope thereof should be construed to fall within the scope of the present disclosure.

Claims

1. An environment-friendly carton processing device comprises a supporting underframe (1) and a control screen (2), and is characterized by further comprising a transmission mechanism (3), a first waist blocking extruding and supporting mechanism (4), a second waist blocking extruding and supporting mechanism (5), a transmission belt (6), a circulating blanking mechanism (7) and a layering and separating mechanism (8); one side of the supporting underframe (1) is connected with the control screen (2); the lower part of the supporting underframe (1) is connected with a transmission mechanism (3); one side of the supporting underframe (1) is connected with a first waist blocking extruding and supporting mechanism (4), and the other side of the supporting underframe (1) is connected with a second waist blocking extruding and supporting mechanism (5); one side of the supporting underframe (1) is connected with a circulating blanking mechanism (7), and the other side of the supporting underframe (1) is connected with a fixed-layer drawing mechanism (8); one side of the first waist blocking extruding and supporting mechanism (4) is connected with the second waist blocking extruding and supporting mechanism (5) through a transmission belt (6);

the second waist blocking squeezing and supporting mechanism (5) comprises a side supporting frame (501), a first driving wheel (502), a first driving rod (503), a first gear (504), a second gear (505), a first toothed bar (506), a second toothed bar (507), a squeezing and supporting plate (508), a top bead (509), an inclined baffle (5010), a second driving wheel (5011), a first rotating shaft (5012), a backup plate (5013), a first linear guide rail (5014), a first extending plate (5015), a second linear guide rail (5016), a second extending plate (5017), a first electric push rod (5018), an electric turntable (5019) and a sucker (5020); the side supporting frame (501) is in transmission connection with the first transmission rod (503); the side supporting frame (501) is in rotary connection with a first rotating shaft (5012); the middle upper part in the side support frame (501) is connected with the extrusion support plate (508) in a sliding way; the outer surface of the first driving wheel (502) is in transmission connection with a first driving rod (503); one side of the outer surface of the first transmission rod (503) is in transmission connection with a first gear (504), and the other side of the outer surface of the first transmission rod (503) is in transmission connection with a second gear (505); the upper part of the first gear (504) is meshed with a first rack bar (506); the upper part of the second gear (505) is meshed with a second rack bar (507); the upper part of the first toothed bar (506) is welded with the extrusion supporting plate (508); the end surface of the extrusion supporting plate (508) is welded with eleven top beads (509) at equal intervals; the upper part of the extrusion supporting plate (508) is welded with an inclined baffle (5010); the outer ring surface of the first transmission wheel (502) is in transmission connection with a second transmission wheel (5011) through a connection belt; one end of the outer ring surface of the first rotating shaft (5012) is welded with the backup plate (5013); a first linear guide rail (5014) is arranged above and below one side of the backup plate (5013), and a second linear guide rail (5016) is arranged above and below the other side of the backup plate (5013); the middle part of the backup plate (5013) is in bolt connection with a first electric push rod (5018); the two first linear guide rails (5014) are in sliding connection with the first extension plate (5015); the two second linear guide rails (5016) are in sliding connection with the second extension plate (5017); one side of the first electric push rod (5018) is connected with the electric turntable (5019) through a bolt; one side of the electric turntable (5019) is connected with the sucker (5020) through a bolt; the lower part and the rear side of the side supporting frame (501) are connected with the supporting underframe (1); the inner axis of the second transmission wheel (5011) is connected with the fixed-layer split-drawing mechanism (8);

the layering and splitting mechanism (8) comprises a motor (801), a first driving disc (802), a driving flat belt (803), a double-limiting rod (804), a fourth linear guide rail (805), a second driving disc (806), a second rotating shaft (807), a third driving disc (808), a worm (809), a turbine (8010), a third rotating shaft (8011), a third driving wheel (8012), a fourth driving wheel (8013), a fourth rotating shaft (8014), a fixed seat (8015), a fifth driving wheel (8016), a sixth driving wheel (8017), a long gear (8018), a first slide rail seat (8019), a second slide rail seat (8020), a third gear (8021), a side supporting plate (8022), a first bevel gear (8023), a 8024), a fifth rotating shaft (8025), an L-shaped fixed mount (8026), a fifth linear guide rail (8027) and a pulling and supporting mechanism (8028); an output shaft of the motor (801) is rotationally connected with the first transmission disc (802); the outer surface of the first transmission disc (802) is in transmission connection with a transmission flat belt (803); the upper part of the inner middle part and the lower part of the inner middle part of the transmission flat belt (803) are respectively limited with a group of double limiting rods (804); the opposite surfaces of the two groups of double limiting rods (804) are respectively welded with a fourth linear guide rail (805); a third transmission disc (808) is arranged on one side, away from the first transmission disc (802), of the transmission flat belt (803); a second transmission disc (806) is arranged in front of the third transmission disc (808); the inner axis of the second transmission disc (806) is inserted with the second rotating shaft (807); the inner axis of the third transmission disc (808) is inserted into the worm (809); the upper part of the worm (809) is meshed with the turbine (8010); the inner axis of the turbine (8010) is spliced with the third rotating shaft (8011); the outer surface of the third rotating shaft (8011) is spliced with the third driving wheel (8012); the outer ring surface of the third driving wheel (8012) is in transmission connection with the fourth driving wheel (8013) through a connecting belt; the inner axis of the fourth driving wheel (8013) is spliced with the fourth rotating shaft (8014); the middle part of the outer surface of the fourth rotating shaft (8014) is spliced with the fixed seat (8015); the outer surface of the fourth rotating shaft (8014) is spliced with the fifth driving wheel (8016); the outer ring surface of the fifth driving wheel (8016) is in transmission connection with the sixth driving wheel (8017) through a connecting belt; the inner axis of the sixth driving wheel (8017) is spliced with the long gear (8018) through a connecting shaft; one side of the long gear (8018) is spliced with the first slide rail seat (8019), and the other side of the long gear (8018) is spliced with the second slide rail seat (8020); the lower part of the long gear (8018) is meshed with a third gear (8021); one side of the axle center of the third gear (8021) is spliced with the side supporting plate (8022), and the other side of the axle center of the third gear (8021) is spliced with the first bevel gear (8023); the first bevel gear (8023) is meshed with the second bevel gear (8024); the inner axis of the second bevel gear (8024) is spliced with the fifth rotating shaft (8025); the front side of the outer surface and the rear side of the outer surface of the fifth rotating shaft (8025) are inserted into the L-shaped fixing frame (8026); two groups of fifth linear guide rails (8027) are arranged below the L-shaped fixing frame (8026); three groups of bracing mechanisms (8028) are equidistantly arranged on the outer surface of the fifth rotating shaft (8025); the lower part of the motor (801) is connected with the supporting underframe (1); the lower part of the fourth linear guide rail (805) is connected with the supporting underframe (1); the outer surface of the second rotating shaft (807) is connected with the supporting underframe (1); the outer surface of the worm (809) is connected with the supporting underframe (1); the outer surface of the third rotating shaft (8011) is connected with the supporting underframe (1); the outer surface of the fourth rotating shaft (8014) is connected with the supporting underframe (1); the fixed seat (8015) is connected with the supporting underframe (1); the lower part of the first slide rail seat (8019) is connected with the supporting underframe (1); the lower part of the second slide rail seat (8020) is connected with the supporting underframe (1); the lower parts of the two groups of fifth linear guide rails (8027) are connected with the supporting underframe (1);

when one side of the first waist blocking and extruding mechanism (4) is connected with the second waist blocking and extruding mechanism (5) through the transmission belt (6), the transmission belt (6) is in a twisted reverse 8 shape.

2. The environment-friendly carton processing device according to claim 1, wherein the circulating blanking mechanism (7) comprises a collecting cabin (701), a second electric push rod (702), a J-shaped push plate (703), a third electric push rod (704), a lower extrusion strip block (705), a discharging platform (706) and a third linear guide rail (707); the inner side of the material collecting cabin (701) is connected with two second electric push rods (702) at equal intervals through bolts; the inner side of the material collecting cabin (701) is connected with three third electric push rods (704) at equal intervals through bolts; one side of the material collecting cabin (701) is welded with the material discharging platform (706); one side of each of the two second electric push rods (702) is connected with the J-shaped push plate (703) through a bolt; one side of each third electric push rod (704) is in bolted connection with the lower extrusion block (705), and one side of each third electric push rod (704) and the lower extrusion block (705) are both positioned in the discharging table (706); three third linear guide rails (707) are arranged below the material collecting cabin (701); the lower parts of the three third linear guide rails (707) are connected with the supporting underframe (1).

3. An environmentally friendly carton processing apparatus as claimed in claim 2, wherein the bracing mechanism (8028) comprises a seventh driving wheel (802801), an eighth driving wheel (802802), a fourth driving rod (802803), a second driving rod (802804), a third driving rod (802805), a sixth rotating shaft (802806) and an inserting plate (802807); the seventh driving wheel (802801) is in transmission connection with the eighth driving wheel (802802) through a connecting belt; the eighth driving wheel (802802) is in driving connection with the fourth driving rod (802803); the fourth transmission rod (802803) is in transmission connection with the second transmission rod (802804); the second transmission rod (802804) is in transmission connection with the third transmission rod (802805); the third transmission rod (802805) is in transmission connection with the sixth rotating shaft (802806); the second transmission rod (802804) is welded with the insert plate (802807); the inner axle center of the seventh driving wheel (802801) is spliced with the fifth rotating shaft (8025); the inner axle center of the eighth driving wheel (802802) is spliced with the L-shaped fixed frame (8026); the outer surface of the sixth rotating shaft (802806) is inserted into the L-shaped fixed frame (8026).

4. An environment-friendly carton processing device according to claim 3, characterized in that a guide rail is arranged inside the transmission mechanism (3) and is positioned at one side of the first waist blocking extruding and supporting mechanism (4) and one side of the second waist blocking extruding and supporting mechanism (5), and a plurality of groups of support rollers capable of rolling are connected on the guide rail.

5. The environmental carton processing device according to claim 4, characterized in that the lower part of the discharging table (706) is in a closed shape.