CN114603984B

CN114603984B - Carton cardboard tilting mechanism

Info

Publication number: CN114603984B
Application number: CN202210340080.XA
Authority: CN
Inventors: 张春; 张驰; 张洪波
Original assignee: Chongqing Weibo Power Science And Technology Co ltd
Current assignee: Chongqing Weibo Power Science And Technology Co ltd
Priority date: 2022-04-02
Filing date: 2022-04-02
Publication date: 2023-06-20
Anticipated expiration: 2042-04-02
Also published as: CN114603984A

Abstract

The invention relates to the technical field of intelligent processing equipment, in particular to a carton paperboard overturning mechanism; the carton cardboard tilting mechanism includes feeding platform, discharging platform, tilting subassembly and jacking platform, feeding platform sets up in the one side that the printing machine is close to the feed inlet, discharging platform sets up in the one side that the printing machine is close to the discharge gate, tilting subassembly includes slide and first conveyer belt, the slide sets up in one side of discharging platform, and be located the top of first conveyer belt, jacking platform sets up in the below of first conveyer belt, and be located feeding platform's below, send into the printing machine with the cardboard through feeding platform, after the printing is accomplished, the cardboard moves to the slide through discharging platform, accomplish the upset and the landing is to the top of first conveyer belt, send back feeding platform through the jacking platform at last, the time of manual upset has been saved, and the cost of labor is reduced.

Description

Carton cardboard tilting mechanism

Technical Field

The invention relates to the technical field of intelligent processing equipment, in particular to a carton paperboard overturning mechanism.

Background

In the production of corrugated board, the board printed on the corrugated board production line faces downwards due to the production process, and for the upper printing equipment, the board needs to be turned 180 degrees before printing, so that the face paper faces upwards, and the board can be subjected to the next printing process. At present, most of operation modes are to manually turn the paperboards by 180 degrees, and the operation modes reduce the production efficiency and increase the labor cost.

Disclosure of Invention

The invention aims to provide a carton paperboard overturning mechanism, which aims to solve the technical problems that in the prior art, corrugated paperboards are manually overturned by 180 degrees in production, the production efficiency is reduced and the labor cost is increased by adopting the operation mode.

In order to achieve the above purpose, the invention provides a carton board overturning mechanism, which comprises a feeding platform, a discharging platform, an overturning assembly and a jacking platform, wherein the feeding platform is arranged on one side of a printer close to a feeding hole, the discharging platform is arranged on one side of the printer close to a discharging hole, the overturning assembly comprises a slideway and a first conveying belt, the slideway is arranged on one side of the discharging platform and is positioned above the first conveying belt, and the jacking platform is arranged below the first conveying belt and is positioned below the feeding platform;

the jacking platform comprises a base, a first cylinder, a push rod, a stacking plate, a first top plate and a second top plate, wherein the base is arranged on one side of the first conveyor belt, the first cylinder is arranged in the base, the push rod is movably connected with the output end of the first cylinder and is positioned above the first cylinder, the stacking plate is movably connected with the push rod and is positioned on the outer side wall of the push rod and is positioned above the base, the first top plate and the second top plate are fixedly connected with the push rod, the first top plate is positioned above the stacking plate, and the second top plate is positioned below the stacking plate;

the feeding platform comprises a supporting plate, two movable doors and pushing arms, wherein the supporting plate is arranged above the stacking plate, a feed back hole is formed in the top end of the supporting plate, the number of the two movable doors is two, the two movable doors are respectively connected with the supporting plate in a rotating mode and are located on two sides of the feed back hole, and the pushing arms are arranged on one side, away from the printing machine, of the supporting plate.

After printing is finished, the paperboard moves to the slideway through the discharging platform, overturns and slides to the upper part of the first conveying belt, and finally returns to the feeding platform through the jacking platform, so that the time for manual overturning is saved, and the labor cost is reduced.

The discharging platform comprises a second conveying belt and a pneumatic gate, wherein the second conveying belt is arranged on one side, close to a discharging hole, of the printing machine, and the pneumatic gate is arranged on one side, far away from the printing machine, of the second conveying belt.

The second conveyer belt is used for conveying the paper board after printing, and when one end of the paper board contacts with the pneumatic gate, the paper board is blocked, and as the second conveyer belt continues to convey, one end, close to the pneumatic gate, of the paper board is turned over downwards and slides to the upper part of the first conveyer belt along the slide way.

The pneumatic gate comprises a second air cylinder and a baffle plate, wherein the second air cylinder is arranged on one side, far away from the printing machine, of the second conveyor belt, and the baffle plate is movably connected with the output end of the second air cylinder and is positioned below the second air cylinder.

The baffle plate can be moved by the position of the baffle plate controlled by the expansion and contraction of the second cylinder, so that the paper board can pass through the baffle plate.

The slide comprises a sloping plate and rolling rods, wherein the sloping plate is arranged below the pneumatic gate, the number of the rolling rods is multiple, each rolling rod is respectively connected with the sloping plate in a rotating mode, and the rolling rods are uniformly arranged on one side, close to the first conveying belt, of the sloping plate at intervals.

When the paper board slides along the inclined plate, the plurality of rolling rods are arranged, so that the sliding friction is converted into rolling friction, and the paper board is prevented from being clamped on the surface of the inclined plate.

The slide way further comprises two first side plates, and the two first side plates are respectively arranged on two sides of the inclined plate.

The first side plates are arranged on two sides of the inclined plate, so that the paper board is prevented from being separated from the inclined plate in the sliding process.

The jacking platform further comprises two second side plates, wherein the two second side plates are fixedly connected with the base respectively and located on two sides of the stacking plate respectively.

The paper board enters the upper part of the stacking plate under the driving of the first conveying belt, and the paper board is prevented from being separated from the stacking plate by arranging two second side plates.

According to the carton board overturning mechanism disclosed by the invention, the pushing arm pushes the board above the supporting board into the printer, after printing is finished, the board moves to the slideway through the discharging platform, overturning is finished, the board slides to the upper part of the first conveying belt, the first conveying belt conveys the board to the upper part of the stacking board and stacks the board, the first air cylinder stretches, the first top board and the second top board move downwards along with the ejector rod, the first top board jacks up the stacked board, the second top board drives the stacking board to move upwards, the upward-jacked board jacks up the movable doors at two sides, the stacking board maintains the opening and closing angle of the movable doors, and after the first air cylinder contracts, the board presses downwards, so that the movable doors are restored to the original positions, and at the moment, the pushing arm can push the board to print at the other side, so that the time of manual overturning is saved, and the manual cost is reduced.

Drawings

In order to more clearly illustrate the embodiments of the invention or the technical solutions in the prior art, the drawings that are required in the embodiments or the description of the prior art will be briefly described, it being obvious that the drawings in the following description are only some embodiments of the invention, and that other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

Fig. 1 is a schematic structural view of a turnover mechanism for paper boards of a paper box.

Fig. 2 is a schematic structural view of the lifting platform provided by the invention when transporting the paperboard.

Fig. 3 is a top view of a feed platform provided by the present invention.

Fig. 4 is a schematic view of the pneumatic gate according to the present invention when contracted.

Fig. 5 is a bottom view of the folding platform provided by the present invention.

1-feeding platform, 11-supporting plate, 12-movable door, 13-pushing arm, 131-third cylinder, 132-pushing plate, 14-return hole, 2-discharging platform, 21-second conveyor belt, 22-pneumatic gate, 221-second cylinder, 222-baffle, 2221-riser, 2222-cross plate, 2223-T-shaped hole, 3-turnover assembly, 31-slideway, 311-sloping plate, 312-rolling bar, 313-first side plate, 32-first conveyor belt, 4-jacking platform, 41-base, 42-first cylinder, 43-ejector rod, 44-stacking plate, 45-first top plate, 46-second top plate, 47-second side plate, 5-printer, 6-folding platform, 61-third conveyor belt, 62-third side plate.

Detailed Description

Embodiments of the present invention are described in detail below, examples of which are illustrated in the accompanying drawings, wherein like or similar reference numerals refer to like or similar elements or elements having like or similar functions throughout. The embodiments described below by referring to the drawings are illustrative and intended to explain the present invention and should not be construed as limiting the invention.

In the description of the present invention, it should be understood that the terms "length," "width," "upper," "lower," "front," "rear," "left," "right," "vertical," "horizontal," "top," "bottom," "inner," "outer," and the like indicate orientations or positional relationships based on the orientation or positional relationships shown in the drawings, merely to facilitate describing the present invention and simplify the description, and do not indicate or imply that the devices or elements referred to must have a specific orientation, be configured and operated in a specific orientation, and therefore should not be construed as limiting the present invention. Furthermore, in the description of the present invention, the meaning of "a plurality" is two or more, unless explicitly defined otherwise.

Referring to fig. 1 to 5, the invention provides a carton board turning mechanism, which comprises a feeding platform 1, a discharging platform 2, a turning component 3 and a lifting platform 4, wherein the feeding platform 1 is arranged at one side of a printer 5 close to a feeding port, the discharging platform 2 is arranged at one side of the printer 5 close to a discharging port, the turning component 3 comprises a slideway 31 and a first conveying belt 32, the slideway 31 is arranged at one side of the discharging platform 2 and is positioned above the first conveying belt 32, and the lifting platform 4 is arranged below the first conveying belt 32 and is positioned below the feeding platform 1;

the jacking platform 4 comprises a base 41, a first cylinder 42, a push rod 43, a stacking plate 44, a first top plate 45 and a second top plate 46, wherein the base 41 is arranged on one side of the first conveyor belt 32, the first cylinder 42 is arranged in the base 41, the push rod 43 is movably connected with the output end of the first cylinder 42 and is positioned above the first cylinder 42, the stacking plate 44 is movably connected with the push rod 43 and is positioned on the outer side wall of the push rod 43 and is positioned above the base 41, the first top plate 45 and the second top plate 46 are fixedly connected with the push rod 43, the first top plate 45 is positioned above the stacking plate 44, and the second top plate 46 is positioned below the stacking plate 44;

the feeding platform 1 comprises a supporting plate 11, two movable doors 12 and pushing arms 13, wherein the supporting plate 11 is arranged above the stacking plate 44, a feed back hole 14 is formed in the top end of the supporting plate 11, the number of the two movable doors 12 is two, the two movable doors 12 are respectively connected with the supporting plate 11 in a rotating mode and are located on two sides of the feed back hole 14, and the pushing arms 13 are arranged on one side, away from the printing machine 5, of the supporting plate 11.

In this embodiment, the pushing arm 13 pushes the cardboard above the supporting plate 11 into the printer 5, after printing is completed, the cardboard moves to the slide way 31 through the discharging platform 2, the cardboard is turned over and slides to the upper side of the first transporting belt 32, the first transporting belt 32 transports the cardboard to the upper side of the stacking plate 44 and stacks the cardboard, the first air cylinder 42 stretches, the first top plate 45 and the second top plate 46 move downwards along with the ejector rod 43, the first top plate 45 pushes up the stacked cardboard, the second top plate 46 drives the stacking plate 44 to move upwards, the lifted cardboard pushes up the movable doors 12 on two sides, the stacking plate 44 maintains the opening and closing angle of the movable doors 12, and after the first air cylinder 42 contracts, the cardboard is pressed downwards, so that the movable doors 12 are restored to the original position, the pushing arm 13 can push the cardboard at the moment, the other side of the printing is performed, the time of manual turning over is saved, and the labor cost is reduced.

Further, the discharging platform 2 comprises a second conveying belt 21 and a pneumatic gate 22, the second conveying belt 21 is arranged at one side of the printing machine 5 close to the discharging hole, and the pneumatic gate 22 is arranged at one side of the second conveying belt 21 far away from the printing machine 5; the air gate 22 includes a second air cylinder 221 and a baffle 222, the second air cylinder 221 is disposed on a side of the second conveyor belt 21 away from the printing machine 5, and the baffle 222 is movably connected with an output end of the second air cylinder 221 and is located below the second air cylinder 221.

In this embodiment, the second conveyor belt 21 is used for conveying the printed paper board, when one end of the paper board is blocked after contacting with the air-operated gate 22, because the second conveyor belt 21 continues to convey, the end of the paper board near the air-operated gate 22 turns downwards, slides down the slideway 31 to the upper side of the first conveyor belt 32, and the baffle 222 can be moved by the position of the baffle 222 controlled by the expansion and contraction of the second air cylinder 221, so that the paper board can pass through the baffle 222.

Further, the slide way 31 includes an inclined plate 311 and rolling rods 312, the inclined plate 311 is disposed below the air-operated gate 22, the number of the rolling rods 312 is plural, each rolling rod 312 is respectively rotatably connected with the inclined plate 311, and the rolling rods 312 are uniformly disposed at a side of the inclined plate 311 close to the first conveyor belt 32 at intervals; the slide way 31 further includes two first side plates 313, and the two first side plates 313 are respectively disposed on two sides of the inclined plate 311; the jacking platform 4 further includes two second side plates 47, where the number of the second side plates 47 is two, and the two second side plates 47 are respectively fixedly connected with the base 41 and are respectively located at two sides of the stacking plate 44.

In the present embodiment, when the paper board slides along the inclined plate 311, the plurality of rolling rods 312 are arranged, so that the sliding friction is converted into rolling friction, the paper board is prevented from being blocked on the surface of the inclined plate 311, and the first side plates 313 are arranged on two sides of the inclined plate 311, so that the paper board is prevented from being separated from the inclined plate 311 in the sliding process; the cardboard is driven by the first conveyor belt 32 to enter above the stacking plate 44, and the cardboard is prevented from being separated from the stacking plate 44 by providing two second side plates 47.

Further, the carton board overturning mechanism further comprises a folding platform 6, the folding platform 6 comprises a third conveying belt 61 and third side plates 62, the third conveying belt 61 is arranged on one side, far away from the printing machine 5, of the discharging platform 2, the number of the third side plates 62 is two, and the two third side plates 62 are located below the third conveying belt 61 and are located on two sides of the third conveying belt 61 respectively.

In this embodiment, the distance between the two side plates is smaller and smaller during the transportation of the third transportation belt 61, so that the two sides of the cardboard are folded inwards during the transportation, and the cardboard is folded automatically after separating from the third transportation belt 61.

Further, the baffle 222 includes a vertical plate 2221 and a horizontal plate 2222, the vertical plate 2221 is fixedly connected with the output end of the second air cylinder 221 and is located below the second air cylinder 221, the horizontal plate 2222 is fixedly connected with the vertical plate 2221 and is located at a side of the vertical plate 2221 away from the second conveyor belt 21, and a T-shaped hole 2223 is provided on a side wall of the vertical plate 2221.

In this embodiment, when the T-shaped hole 2223 is blocked by the inclined plate 311, the paper board cannot pass through the transverse plate 2222, and when the T-shaped hole 2223 is located above the inclined plate 311, the paper board enters the folding platform 6 through the T-shaped hole 2223.

Further, the pushing arm 13 includes a third cylinder 131 and a pushing plate 132, the third cylinder 131 is disposed on a side of the supporting plate 11 away from the printing machine 5, and the pushing plate 132 is movably connected with an output end of the third cylinder 131 and is located above the supporting plate 11.

In this embodiment, the pushing plate 132 is controlled by the extension and contraction of the third cylinder 131, so that the pushing plate 132 can send the paper board into the printer 5 to complete the automatic feeding.

The above disclosure is only a preferred embodiment of the present invention, and it should be understood that the scope of the invention is not limited thereto, and those skilled in the art will appreciate that all or part of the procedures described above can be performed according to the equivalent changes of the claims, and still fall within the scope of the present invention.

Claims

1. A cardboard overturning mechanism for a cardboard box is characterized in that,

the automatic feeding device comprises a feeding platform (1), a discharging platform (2), a turnover assembly (3) and a jacking platform (4), wherein the feeding platform (1) is arranged on one side, close to a feeding port, of a printing machine (5), the discharging platform (2) is arranged on one side, close to a discharging port, of the printing machine (5), the turnover assembly (3) comprises a slideway (31) and a first conveying belt (32), the slideway (31) is arranged on one side of the discharging platform (2) and is positioned above the first conveying belt (32), and the jacking platform (4) is arranged below the first conveying belt (32) and is positioned below the feeding platform (1);

the jacking platform (4) comprises a base (41), a first air cylinder (42), a push rod (43), a stacking plate (44), a first top plate (45) and a second top plate (46), wherein the base (41) is arranged on one side of the first conveying belt (32), the first air cylinder (42) is arranged in the base (41), the push rod (43) is movably connected with the output end of the first air cylinder (42) and is located above the first air cylinder (42), the stacking plate (44) is movably connected with the push rod (43) and is located on the outer side wall of the push rod (43) and is located above the base (41), the first top plate (45) and the second top plate (46) are fixedly connected with the push rod (43), the first top plate (45) is located above the stacking plate (44), and the second top plate (46) is located below the stacking plate (44);

the feeding platform (1) comprises a supporting plate (11), two movable doors (12) and pushing arms (13), wherein the supporting plate (11) is arranged above the stacking plate (44), the top end of the supporting plate (11) is provided with feed back holes (14), the number of the two movable doors (12) is two, the two movable doors (12) are respectively connected with the supporting plate (11) in a rotating mode and are located on two sides of the feed back holes (14), and the pushing arms (13) are arranged on one side, far away from the printing machine (5), of the supporting plate (11);

the discharging platform (2) comprises a second conveying belt (21) and a pneumatic gate (22), wherein the second conveying belt (21) is arranged on one side, close to a discharging hole, of the printing machine (5), and the pneumatic gate (22) is arranged on one side, far away from the printing machine (5), of the second conveying belt (21);

the pneumatic gate (22) comprises a second air cylinder (221) and a baffle plate (222), the second air cylinder (221) is arranged on one side, far away from the printing machine (5), of the second conveyor belt (21), and the baffle plate (222) is movably connected with the output end of the second air cylinder (221) and is positioned below the second air cylinder (221);

the slideway (31) comprises an inclined plate (311) and rolling rods (312), the inclined plate (311) is arranged below the pneumatic gate (22), the number of the rolling rods (312) is multiple, each rolling rod (312) is respectively and rotatably connected with the inclined plate (311), and the rolling rods are uniformly arranged on one side, close to the first conveying belt (32), of the inclined plate (311) at intervals;

the slideway (31) further comprises two first side plates (313), wherein the number of the first side plates (313) is two, and the two first side plates (313) are respectively arranged at two sides of the inclined plate (311);

the jacking platform (4) further comprises two second side plates (47), wherein the second side plates (47) are fixedly connected with the base (41) respectively and are located on two sides of the stacking plate (44).