CN113997346B - Cardboard box processing equipment - Google Patents

Abstract

The invention discloses a carton processing device, which comprises a die cutting mechanism and a material conveying mechanism, wherein the die cutting mechanism comprises: the die cutting device is fixed at the top of the die cutting mechanism; the programmable controller is arranged on the side face of the die cutting mechanism; the discharging mechanism is arranged in the die-cutting mechanism, is right below the die-cutting device and is matched with the material conveying mechanism on one side. According to the invention, when the first cylinder compresses the limiting plate into the side groove, the connecting plate at one side of the discharging plate can downwards press the vertical plate to the upper part of the conveying belt, so that the paperboard just entering the lower part of the connecting plate cannot pass through the vertical plate, after the die cutting of the upper paperboard is finished, the first cylinder is started to retract, the paperboard below the connecting plate is discharged for roll forming and die cutting forming, the limiting part again jacks up the paperboard and is not contacted with the conveying belt, and the working procedure of roll die cutting is finished once, so that the processing efficiency of the paperboard is improved.

Description

Cardboard box processing equipment

Technical Field

The invention relates to the technical field of carton processing, in particular to carton processing equipment.

Background

The processing of the cardboard box is divided into a plurality of processes, the corrugated cardboard is produced by mixing waste paper with hot water, stirring with hot water, soaking fiber, centrifuging to take out foreign matters, leaking water and the like, finally processing into a winding drum, processing the winding drum produced by a paper mill into various types of corrugated cardboards by corrugated cardboard production equipment, wherein the cardboard production process comprises the procedures of paper loading, gluing, bonding, drying, preliminary cutting and the like; then roll forming, gluing, bonding and drying are carried out on the roll paper, and finally the working procedures of bending line processing, pattern printing, surface slotting, die cutting and the like are carried out on the formed paper board, and finally binding is carried out.

Firstly, in the actual production process, the cardboard boxes are conveyed to a conveyor belt from the cut boards to prepare for the subsequent die cutting, but the procedures are more dispersed, the conveyor belt is not stopped for feeding, the templates are piled up again after folding lines are caused, and then the templates are manually placed on die cutting equipment to cut, so that the process is more complex, and the production efficiency is lower; secondly, after die cutting is performed according to the set die, the cardboard box is formed, and after cutting the whole cardboard, the leftover materials of the rest part are arranged on the periphery of the cardboard box die, and the traditional method is to manually take away the cut cardboard die and the rest leftover materials, so that the production efficiency of the cardboard box is reduced.

Disclosure of Invention

The invention aims at: in order to solve the above problems, a carton processing apparatus is proposed.

In order to achieve the above purpose, the present invention adopts the following technical scheme:

the utility model provides a cardboard case processing equipment, includes cross cutting mechanism and passes material mechanism, cross cutting mechanism is including:

the die cutting device is fixed at the top of the die cutting mechanism;

the programmable controller is arranged on the side face of the die cutting mechanism;

the discharging mechanism is arranged in the die-cutting mechanism, is right below the die-cutting device and is matched with the material conveying mechanism at one side;

the material conveying mechanism comprises:

the base is arranged at one side close to the discharging mechanism;

the first conveyor belt is arranged in the base, a second driving motor is fixed on the side surface wall of the base, and the output end of the second driving motor is in transmission connection with the first conveyor belt;

the stacking part is fixed at the top of the base far away from one end of the discharging mechanism, the stacking part is provided with a plurality of groups of fixing plates fixed at the top of the base, and the tops of the plurality of groups of fixing plates are all in an inclined structure;

the roller pressing part is fixed at the top of the base close to one end of the discharging mechanism, and limit rollers fixed at the top of the base are arranged on two sides of the roller pressing part;

and the discharging part is arranged between the stacking part and the roller pressing part.

Preferably, two sets of side grooves have been seted up at the base top, two sets of side inslot all is provided with a set of limit material portion, two sets of limit material portion all including:

two groups of fixing cylinders, wherein the two groups of fixing cylinders are fixed at two ends of the bottom of the side groove;

the two groups of connecting columns are respectively and slidably connected to the vertical ends of the two groups of fixed cylinders;

the two groups of springs II are respectively fixed between the connecting column and the side groove;

and the material limiting plates are fixed at the tops of the two groups of connecting columns and are abutted with the discharging parts through the abutting blocks.

Preferably, the discharging part comprises:

the first air cylinder is fixed on the side wall of the group of fixed plates;

the discharging plate is fixed at the output end of the first cylinder and is abutted to the tops of the two groups of abutting blocks;

the connecting frame and the N-type frame are sequentially fixed on one side of the first cylinder, a limiting groove is formed in the vertical end of the N-type frame, a vertical plate is connected to the vertical end of the limiting groove in a sliding mode, two groups of fixing blocks are fixed on two sides of the top of the N-type frame, and a first spring is fixed between the two groups of fixing blocks and the N-type frame;

the connecting plate is rotationally connected with the connecting frame, one end of the connecting plate is rotationally connected with the discharging plate, the other end of the connecting plate is abutted to the top of the vertical plate, and one end, close to the first cylinder, of the connecting plate is of a telescopic structure;

the discharging plate and the vertical plate are not contacted with the first conveyor belt.

Preferably, a first driving motor is fixed on the lateral surface wall of the die cutting mechanism, a rotating shaft penetrating through the horizontal end of the die cutting mechanism is connected with an output end of the first driving motor in a transmission manner, two groups of conveying belts II are connected with the outer surface walls at two ends of the rotating shaft in a transmission manner, and the discharging mechanism is arranged between the two groups of conveying belts II and is in the same horizontal plane with the surfaces of the two groups of conveying belts II.

Preferably, two groups of limiting strips are fixed on the two tops of the two groups of conveyor belts.

Preferably, the discharging mechanism comprises:

the cube is arranged between the two groups of conveyor belts II, and the bottom of the cube is fixedly connected with the inner surface wall of the die cutting mechanism through four groups of supporting frames;

the U-shaped groove is formed in the top of the cube;

the two groups of telescopic parts are fixed at two ends of the U-shaped groove;

the second cylinder is fixed at the vertical end of the cube and penetrates through the U-shaped groove, the top of the second cylinder output rod and the tops of the two groups of telescopic components are both fixed with rotating blocks, and the second cylinder output rod and the two groups of telescopic components are both connected with a material bearing plate on the same horizontal plane with the second conveyor belt through the rotating blocks.

Preferably, one group, close to the material conveying mechanism, of the two groups of telescopic members is composed of four groups of matched telescopic pipes, and one group, far away from the material conveying mechanism, of the two groups of telescopic members is composed of three groups of matched telescopic pipes.

Preferably, one side of the die cutting mechanism far away from the material conveying mechanism is fixedly provided with a formed paperboard collecting frame and a waste paperboard collecting frame, and the bottom of the formed paperboard collecting frame is fixedly provided with a reinforcing plate.

Preferably, extension plates with arc edges are fixed at both ends of the material bearing plate.

In summary, due to the adoption of the technical scheme, the beneficial effects of the invention are as follows:

1. according to the invention, the paperboards to be rolled are piled in the piling part, the piled paperboards are limited above two groups of limiting plates through the limiting part and are not contacted with the first conveyor belt, the first cylinder of the discharging part is started to compress the paperboards against blocks, the limiting plates are compressed into the side grooves, after the limiting plates enter the side grooves, the paperboards are contacted with the first conveyor belt, the conveying belt drives the paperboards to move, meanwhile, only one paperboard can move by the height of the limiting plates, in addition, when the limiting plates are compressed into the side grooves by the first cylinder, the connecting plate on one side of the limiting plates can press the vertical plate above the first conveyor belt, so that the paperboards just below the connecting plate can not pass through the vertical plate, after the die cutting of the previous paperboards is finished, the first cylinder is started to retract, the paperboards below the connecting plate are discharged for roll forming and die cutting forming, and meanwhile, the limiting parts jack the paperboards up again and are not contacted with the first conveyor belt, and thus the die cutting process is circulated, and the processing efficiency of the paperboards is improved;

2. according to the invention, under the condition that the second conveyor belt stops, after cutting the paper board through the die cutting device, the second air cylinder is started, the second air cylinder can jack up the material bearing plate and the paper board die-cut and formed at the top of the material bearing plate, when the telescopic piece close to one side of the formed paper board collecting frame reaches the maximum telescopic length, the telescopic piece at the other side continuously stretches, at the moment, the material bearing plate rotates laterally when passing through the rotating block, the loaded formed paper board is poured into the formed paper board collecting frame, then the second air cylinder is retracted, so that the material bearing plate is retracted into the U-shaped groove, and the driving motor is started to send the rest waste paper board into the waste paper board collecting frame through the second conveyor belt, so that manual operation is reduced, and the production efficiency of the paper board is further improved.

Drawings

FIG. 1 shows a schematic structural diagram provided in accordance with an embodiment of the present invention;

fig. 2 shows a schematic structural diagram of a material conveying mechanism according to an embodiment of the present invention;

fig. 3 shows a schematic view of a material limiting part structure provided according to an embodiment of the present invention;

FIG. 4 shows a schematic diagram of the internal structure of a die-cut structure provided according to an embodiment of the present invention;

fig. 5 shows a schematic structural diagram of a discharging mechanism according to an embodiment of the present invention;

fig. 6 shows a schematic cross-sectional structure of a discharging mechanism according to an embodiment of the present invention.

Legend description:

1. a die cutting mechanism; 2. a material conveying mechanism; 3. a base; 4. a discharging part; 41. a first cylinder; 42. a discharging plate; 43. a connecting plate; 44. a connecting frame; 45. a limit groove; 46. an N-type frame; 47. a fixed block; 48. a first spring; 49. a vertical plate; 5. a discharging mechanism; 51. a cube; 52. an extension plate; 53. a U-shaped groove; 54. a second cylinder; 55. a telescoping member; 56. a material bearing plate; 57. a support frame; 58. a rotating block; 6. a stacker; 61. a fixing plate; 7. a material limiting part; 71. a material limiting plate; 72. a fixed cylinder; 73. a second spring; 74. abutting blocks; 75. a connecting column; 8. a side groove; 9. a roll press section; 10. a limit roller; 11. a second driving motor; 12. a formed paperboard collection frame; 13. a reinforcing plate; 14. a waste paperboard collection frame; 15. a second conveyor belt; 16. limiting long strips; 17. a rotating shaft; 18. a first conveyor belt; 19. driving a first motor; 20. a programmable controller; 21. and a die cutting device.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

Referring to fig. 1-6, the present invention provides a technical solution:

the carton processing equipment comprises a die cutting mechanism 1 and a material conveying mechanism 2, wherein the die cutting mechanism 1 comprises:

the die cutting device 21, the die cutting device 21 is fixed on the top of the die cutting mechanism 1;

the programmable controller 20 is arranged on the side surface of the die cutting mechanism 1;

the discharging mechanism 5 is arranged in the die-cutting mechanism 1, is right below the die-cutting device 21 and is matched with the material conveying mechanism 2 on one side;

the material conveying mechanism 2 comprises:

the base 3 is arranged at one side close to the discharging mechanism 5;

the first conveyor belt 18 is arranged in the base 3, a second driving motor 11 is fixed on the side surface wall of the base 3, and the output end of the second driving motor 11 is in transmission connection with the first conveyor belt 18;

the stacking part 6 is fixed at the top of the base 3 far away from one end of the discharging mechanism 5, the stacking part 6 is provided with a plurality of groups of fixing plates 61 fixed at the top of the base 3, and the tops of the groups of fixing plates 61 are all in an inclined structure;

the roller press part 9, the roller press part 9 is fixed at the top of the base 3 close to one end of the discharging mechanism 5, and both sides of the roller press part 9 are provided with limit rollers 10 fixed at the top of the base 3;

the discharging part 4, the discharging part 4 is arranged between the stacking part 6 and the roll pressing part 9.

Two sets of side grooves 8 have been seted up at base 3 top, all are provided with a set of limit material portion 7 in two sets of side grooves 8, and two sets of limit material portion 7 all including:

two sets of fixing barrels 72, the two sets of fixing barrels 72 are fixed at two ends of the bottom of the side groove 8;

two groups of connecting columns 75, wherein the two groups of connecting columns 75 are respectively and slidably connected to the vertical ends of the two groups of fixed cylinders 72;

two groups of springs II 73, the two groups of springs II 73 are fixed between the connecting column 75 and the side groove 8 respectively;

the limiting plate 71, fixed at two sets of spliced pole 75 tops, limiting plate 71 top is through supporting piece 74 and blowing portion 4 butt.

The discharging part 4 comprises:

a first cylinder 41, the first cylinder 41 being fixed to a set of side walls of the fixing plate 61;

the discharging plate 42, the discharging plate 42 is fixed at the output end of the first cylinder 41 and is abutted to the tops of the two groups of abutting blocks 74;

the connecting frame 44 and the N-type frame 46 are sequentially fixed on one side of the first cylinder 41, a limiting groove 45 is formed in the vertical end of the N-type frame 46, a vertical plate 49 is connected to the vertical end of the limiting groove 45 in a sliding mode, two groups of fixing blocks 47 are fixed on two sides of the top of the N-type frame 46, and a first spring 48 is fixed between the two groups of fixing blocks 47 and the N-type frame 46;

the connecting plate 43 is rotationally connected with the connecting frame 44, one end of the connecting plate 43 is rotationally connected with the discharging plate 42, the other end of the connecting plate 43 is abutted to the top of the vertical plate 49, and one end, close to the first air cylinder 41, of the connecting plate 43 is of a telescopic structure, so that the connecting plate 43 can rotate when an output rod of the first air cylinder 41 moves;

neither the blanking plate 42 nor the riser 49 is in contact with the first conveyor 18.

By stacking the paper sheets to be rolled in the stacking portion 6, limiting the stacked paper sheets above the two groups of limiting plates 71 through the limiting portion 7, not contacting with the first conveyor belt 18, enabling the first cylinder 41 of the discharging portion 4 to compress the limiting plates 74 and compress the limiting plates 71 into the side grooves 8, after the limiting plates 71 enter the side grooves 8, the paper sheets contact with the first conveyor belt 18, the first conveyor belt 18 drives the paper sheets to move, meanwhile, only one paper sheet can move by the distance between the limiting plates 42 and the first conveyor belt 18, in addition, when the limiting plates 71 are compressed into the side grooves 8 by the first cylinder 41, the connecting plates 43 on one side of the limiting plates 42 can press the vertical plates 49 to the upper side of the first conveyor belt 18, so that the paper sheets just below the connecting plates 43 cannot pass through the vertical plates 49, after the die cutting of the previous paper sheets is completed, the first cylinder 41 is started to retract, the paper sheets below the connecting plates 43 are discharged for roll forming and die cutting forming, meanwhile, the limiting portions 7 jack up the paper sheets again, and do not contact with the first conveyor belt 18, and the die cutting process is completed once, and the die cutting efficiency is improved.

The side surface wall of the die cutting mechanism 1 is fixedly provided with a first driving motor 19, the output end of the first driving motor 19 is in transmission connection with a rotating shaft 17 penetrating through the horizontal end of the die cutting mechanism 1, the outer surface walls at the two ends of the rotating shaft 17 are in transmission connection with two groups of conveying belts 15, and the discharging mechanism 5 is arranged between the two groups of conveying belts 15 and is in the same horizontal plane with the surfaces of the two groups of conveying belts 15.

Two groups of limiting strips 16 are fixed on the tops of the two groups of conveying belts II 15, and the two groups of limiting strips 16 can clamp the paperboard between the two groups of conveying belts II 15 when being started, so that the offset during die cutting is avoided.

The discharging mechanism 5 comprises:

the cube 51 is arranged between the two groups of conveyor belts II 15, and the bottom of the cube 51 is fixedly connected with the inner surface wall of the die cutting mechanism 1 through four groups of supporting frames 57;

the U-shaped groove 53, the U-shaped groove 53 is arranged on the top of the cube 51;

two groups of telescopic members 55, wherein the two groups of telescopic members 55 are fixed at two ends of the U-shaped groove 53;

the second cylinder 54, the vertical end at cube 51 is fixed to the second cylinder 54 to wear to establish in U type groove 53, the top of second cylinder 54 output pole and two sets of telescopic members 55 top all are fixed with rotary block 58, and second cylinder 54 output pole and two sets of telescopic members 55 all are connected with the loading board 56 that is at same horizontal plane with conveyer belt two 15 through rotary block 58.

One of the two groups of telescopic members 55, which is close to the material conveying mechanism 2, is formed by four groups of matched telescopic pipes, one of the two groups of telescopic members 55, which is far away from the material conveying mechanism 2, is formed by three groups of matched telescopic pipes, when the two groups of telescopic members 55 are fully telescopic, the second air cylinder 54 jacks up the material bearing plate 56 and is inclined, and the bottom of the material bearing plate 56 is in butt joint with the formed paperboard collecting frame 12.

The side of the die cutting mechanism 1 far away from the material conveying mechanism 2 is fixedly provided with a formed paperboard collecting frame 12 and a waste paperboard collecting frame 14, and the bottom of the formed paperboard collecting frame 12 is fixedly provided with a reinforcing plate 13.

Extension plates 52 with arc edges are fixed at both ends of the material bearing plate 56, so that the formed paper board and the waste paper board can be conveniently collected.

Under the condition that the second conveyor belt 15 stops, after cutting the paper boards through the die cutting device 21, the second air cylinder 54 is started, the second air cylinder 54 jacks up the material bearing plate 56 and the paper boards formed by die cutting the top of the material bearing plate, when the telescopic piece 55 close to one side of the formed paper board collecting frame 12 reaches the maximum telescopic length, the telescopic piece 55 on the other side continuously stretches, at the moment, the material bearing plate 56 rotates laterally when passing through the rotating block 58, the loaded formed paper boards are poured into the formed paper board collecting frame 12, then the second air cylinder 54 is retracted, the material bearing plate 56 is retracted into the U-shaped groove 53, the first driving motor 19 is started to send the rest waste paper boards into the waste paper board collecting frame 14 through the second conveyor belt 15, manual operation is reduced, and the production efficiency of the paper boards is further improved.

The previous description of the embodiments is provided to enable any person skilled in the art to make or use the present invention. Various modifications to these embodiments will be readily apparent to those skilled in the art, and the generic principles defined herein may be applied to other embodiments without departing from the spirit or scope of the invention. Thus, the present invention is not intended to be limited to the embodiments shown herein but is to be accorded the widest scope consistent with the principles and novel features disclosed herein.

Claims (5)

1. The carton processing equipment comprises a die cutting mechanism (1) and a material conveying mechanism (2), and is characterized in that the die cutting mechanism (1) comprises:

the die cutting device (21), the said die cutting device (21) is fixed on the top of the die cutting mechanism (1);

the programmable controller (20) is arranged on the side surface of the die cutting mechanism (1);

the discharging mechanism (5) is arranged in the die-cutting mechanism (1), is right below the die-cutting device (21) and is matched with the material conveying mechanism (2) at one side;

the material conveying mechanism (2) comprises:

the base (3) is arranged at one side close to the discharging mechanism (5);

the first conveyor belt (18) is arranged in the base (3), a second driving motor (11) is fixed on the side surface wall of the base (3), and the output end of the second driving motor (11) is in transmission connection with the first conveyor belt (18);

the material stacking part (6), the material stacking part (6) is fixed at the top of the base (3) far away from one end of the discharging mechanism (5), the material stacking part (6) is provided with a plurality of groups of fixing plates (61) fixed at the top of the base (3), and the tops of the plurality of groups of fixing plates (61) are all of an inclined structure;

the roller pressing part (9), the roller pressing part (9) is fixed at the top of the base (3) close to one end of the discharging mechanism (5), and limit rollers (10) fixed at the top of the base (3) are arranged at two sides of the roller pressing part (9);

a discharging part (4), wherein the discharging part (4) is arranged between the stacking part (6) and the rolling part (9),

two sets of side grooves (8) have been seted up at base (3) top, two sets of all be provided with a set of limit material portion (7) in side groove (8), two sets of limit material portion (7) all including:

two groups of fixing barrels (72), wherein the two groups of fixing barrels (72) are fixed at two ends of the bottom of the side groove (8);

the two groups of connecting columns (75), the two groups of connecting columns (75) are respectively and slidably connected to the vertical ends of the two groups of fixed cylinders (72);

two groups of springs II (73), wherein the two groups of springs II (73) are respectively fixed between the connecting column (75) and the side groove (8);

the material limiting plate (71), the material limiting plate (71) is fixed at the tops of the two groups of connecting columns (75), the top of the material limiting plate (71) is abutted with the discharging part (4) through the abutting block (74),

the discharging part (4) comprises:

a first cylinder (41), the first cylinder (41) being fixed to a set of fixed plate (61) side walls;

the discharging plate (42) is fixed at the output end of the first air cylinder (41) and is abutted to the tops of the two groups of abutting blocks (74);

the connecting frame (44) and the N-type frame (46), the connecting frame (44) and the N-type frame (46) are sequentially fixed on one side of the first air cylinder (41), a limiting groove (45) is formed in the vertical end of the N-type frame (46), a vertical plate (49) is slidably connected to the vertical end of the limiting groove (45), two groups of fixing blocks (47) are fixed on two sides of the top of the N-type frame (46), and a first spring (48) is fixed between the two groups of fixing blocks (47) and the N-type frame (46);

the connecting plate (43), connecting plate (43) and link (44) rotate and connect, one end of connecting plate (43) rotates and connects with discharging plate (42), the other end of connecting plate (43) is abutted to the top of riser (49), and one end of connecting plate (43) close to first cylinder (41) is telescopic structure;

neither the discharging plate (42) nor the vertical plate (49) is in contact with the first conveyor belt (18),

the side surface wall of the die cutting mechanism (1) is fixedly provided with a first driving motor (19), the output end of the first driving motor (19) is in transmission connection with a rotating shaft (17) penetrating through the horizontal end of the die cutting mechanism (1), the outer surface walls at the two ends of the rotating shaft (17) are in transmission connection with two groups of conveying belts (15), the discharging mechanism (5) is arranged between the two groups of conveying belts (15) and is in the same horizontal plane with the surfaces of the two groups of conveying belts (15),

the discharging mechanism (5) comprises:

the cube (51) is arranged between the two groups of conveyor belts II (15), and the bottom of the cube (51) is fixedly connected with the inner surface wall of the die cutting mechanism (1) through four groups of supporting frames (57);

the U-shaped groove (53), the U-shaped groove (53) is arranged at the top of the cube (51);

two groups of telescopic pieces (55), wherein the two groups of telescopic pieces (55) are fixed at two ends of the U-shaped groove (53);

the second cylinder (54), second cylinder (54) are fixed in the vertical end of cube (51) to wear to establish in U type groove (53), the top of second cylinder (54) output pole and two sets of extensible members (55) top all are fixed with rotary block (58), just second cylinder (54) output pole and two sets of extensible members (55) all are connected with through rotary block (58) and hold flitch (56) at same horizontal plane with conveyer belt two (15).

2. A carton processing device according to claim 1, characterized in that two sets of stop strips (16) are fixed on top of the two sets of conveyor belts (15).

3. A carton processing device according to claim 1, characterized in that one of the two sets of telescopic members (55) close to the feed mechanism (2) is formed by four sets of co-operating telescopic tubes, and one of the two sets of telescopic members (55) remote from the feed mechanism (2) is formed by three sets of co-operating telescopic tubes.

4. A carton processing device according to claim 1, characterized in that the side of the die cutting means (1) remote from the transfer means (2) is fixed with a formed cardboard collecting frame (12) and a waste cardboard collecting frame (14), and that the bottom of the formed cardboard collecting frame (12) is fixed with a reinforcing plate (13).

5. A carton processing device according to claim 1, characterized in that the two ends of the stock plate (56) are fixed with extension plates (52) having rounded corners.

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