CN210940627U - Packing carton cardboard cutting device - Google Patents

Abstract

The utility model provides a packing carton cardboard cutting device, which relates to cutting equipment, which comprises a housin, the front of casing is equipped with the opening, top-down is equipped with in proper order and rotates last mould and the lower mould of being connected with the casing in the opening, the paper feed mouth that is located between last mould and the lower mould is seted up at the back of casing, the back outside of casing is equipped with paper feed conveyer belt in proper order, conveyer belt and brace table in advance, paper feed conveyer belt top still is equipped with the neat paper mechanism with casing fixed connection, pressure sensor is installed to paper feed conveyer belt's belt below, paper feed conveyer belt carries material in to the paper feed mouth, the direction of delivery of conveyer belt and paper feed conveyer belt's direction of delivery are perpendicular in advance, the fixed first cylinder that is equipped with on. The utility model discloses combine together electrical control and mechanical structure, only need manual work for the first time to put the cardboard raw materials in good order, automatic feeding is realized completely to follow-up process, reduces labour's demand effectively to improve production efficiency, reduce labour cost.

Description

Packing carton cardboard cutting device

Technical Field

The utility model relates to a cutting equipment, especially a packing carton cardboard cutting device.

Background

The existing die cutting machine is provided with a paper conveying system, but the paper conveying system only conveys paper boards at a paper inlet to die cutting between an upper die and a lower die, the paper boards still need to be manually stacked at the paper inlet, particularly, the work efficiency of a round die cutting machine is higher than that of a flat pressing flat die cutting machine and a round pressing flat die cutting machine, the paper feeding speed is high, workers need to continuously stack paper board raw materials, unstable factors of manual discharging are large, the material is broken due to the fact that the suitable time period of discharging is easily missed, the processing efficiency is reduced, and the waste of manpower and material resources is avoided by the die cutting device capable of automatically feeding.

SUMMERY OF THE UTILITY MODEL

To the above situation, in order to overcome the defects of the prior art, the utility model aims to provide a packing box cardboard cutting device, through improving the structure of paper feed part, realize the automatic feeding function.

The technical scheme includes that the packaging box paperboard die cutting device comprises a shell, an opening is formed in the front of the shell, an upper die and a lower die which are connected with the shell in a rotating mode are sequentially arranged in the opening from top to bottom, and the packaging box paperboard die cutting device is characterized in that a paper conveying opening between the upper die and the lower die is formed in the back of the shell, a paper conveying conveyor belt, a pre-conveying belt and a supporting table are sequentially arranged on the outer side of the back of the shell, a paper aligning mechanism fixedly connected with the shell is further arranged above the paper conveying conveyor belt, a pressure sensor is mounted below a belt of the paper conveying conveyor belt, the paper conveying conveyor belt conveys materials into the paper conveying opening, the conveying direction of the pre-conveying belt is perpendicular to the conveying direction of the paper conveying conveyor belt, a first air cylinder is.

Preferably, the pressure sensor is connected with a driving motor of the pre-conveying belt through a lead, the driving motor of the pre-conveying belt is connected with a first cylinder through a lead, and the pressure sensor is further connected with the paper aligning mechanism through a lead.

Preferably, the paper aligning mechanism comprises two second air cylinders which are fixed on the shell at left and right opposite intervals, and paper aligning plates are fixedly connected to piston rods of the two second air cylinders.

Preferably, a friction plate is fixedly arranged on the paper conveying belt.

Preferably, the upper surface of the pre-transfer belt is higher than the upper surface of the paper transfer belt.

Preferably, the opening of the casing is further provided with an upper paper conveying rod and a lower paper conveying rod which are fixedly connected with the casing, the upper paper conveying rod and the lower paper conveying rod are symmetrically arranged around the paper conveying opening, a plurality of paper conveying wheels are connected to the upper paper conveying rod and the lower paper conveying rod in a sliding mode, the paper conveying wheels of the upper paper conveying rod face to the oblique lower side away from one side of the casing, the paper conveying wheels of the lower paper conveying rod face to the oblique upper side away from one side of the casing, and materials penetrate through the middle of the upper paper conveying rod and the lower paper conveying rod.

Preferably, a paper dropping plate close to the front face of the shell is further arranged outside the shell, a side trough is formed in the paper dropping plate, and the upper paper conveying rod and the lower paper conveying rod are located right above the side trough.

The utility model has the advantages that: compared with the prior art, the automatic feeding device has the advantages that the electrical control and the mechanical structure are combined, only the paperboard raw materials are manually stacked for the first time, the automatic feeding is completely realized in the follow-up process, the demand of labor force is effectively reduced, the process flow is shortened, the production efficiency is improved, the labor cost is reduced, and larger profits are obtained.

Drawings

FIG. 1 is a schematic view of a structure of a feeding side of the present invention;

fig. 2 is a schematic view of the structure on one side of the discharging device of the present invention.

Detailed Description

The following describes the embodiments of the present invention in further detail with reference to the accompanying drawings.

As shown in figures 1 and 2, the packing box paperboard die cutting device comprises a shell 1, wherein an opening is formed in the front of the shell 1, an upper die 2 and a lower die 3 which are rotatably connected with the shell 1 are sequentially arranged in the opening from top to bottom, rotating shafts of the upper die 2 and the lower die 3 extend out of the shell 1 and are connected with a motor through a driving shaft, the packing box paperboard die cutting device is characterized in that a paper conveying port 4 which is positioned between the upper die 2 and the lower die 3 is formed in the back of the shell 1, raw materials needing die cutting enter the space between the upper die 2 and the lower die 3 from the paper conveying port 4 to be die-cut, a paper conveying belt 5, a pre-conveying belt 6 and a supporting table 7 are sequentially arranged on the outer side of the back of the shell 1, a paper aligning mechanism which is fixedly connected with the shell 1 is further arranged above the paper conveying belt 5, a pressure sensor is arranged below a belt of the paper conveying belt 5, the paper, a first air cylinder 9 is fixedly arranged on the supporting table 7, and a push plate 10 is fixedly connected to a piston rod of the first air cylinder 9. All paperboard raw materials are stacked on the pre-conveying belt 6, the first air cylinder 9 drives the push plate 10 to push the paperboard raw materials on the pre-conveying belt 6 to the paper conveying belt 5, one side of the paperboard raw materials is attached to the shell 1, namely, the flattening action in one direction is completed, the paper aligning mechanism acts to carry out the flattening action on the side edge of the paperboard raw materials on the paper conveying belt 5, namely, the flattening action in the other direction is completed, meanwhile, the paper conveying belt 5 continuously conveys the paperboard raw materials into the paper conveying opening 4 one by one from the bottom, and the forming of the shape required by packaging is completed under the cutting action of the upper die 2 and the lower die 3.

The pressure sensor is connected with a driving motor of the pre-conveying belt 6 through a lead, the driving motor of the pre-conveying belt 6 is connected with a first air cylinder 9 through a lead, and the pressure sensor is further connected with a paper aligning mechanism through a lead. When a signal detected by the pressure sensor is lower than a preset value, the signal is transmitted to a driving motor of the pre-conveying belt 6, the pre-conveying belt 6 conveys the paperboard raw materials for a fixed distance, the driving motor of the pre-conveying belt 6 sends a signal to the first air cylinder 9 every time the driving motor finishes one conveying work, the first air cylinder 9 pushes the paperboard raw materials to be contacted with the back surface of the shell 1 after receiving the signal, the pressure sensor detects that the pressure signal is recovered to be above a set value at the moment, the signal is transmitted to the paper aligning mechanism, and the paper aligning mechanism performs paper aligning action to circulate; the above electrical sequence control can be, and is not limited to being, implemented by a programmable controller.

The paper aligning mechanism comprises two second cylinders 11 which are fixed on the shell 1 at left and right opposite intervals, and the piston rods of the two second cylinders 11 are fixedly connected with paper aligning plates 8. The pressure sensor is connected with the two second cylinders 11 through wires, and the two second cylinders 11 act simultaneously after receiving signals to clamp the paperboard raw materials on the paper conveying and conveying belt 5, so that the side edges of the paperboard raw materials are aligned.

And friction plates are fixedly arranged on the paper conveying and conveying belt 5. The friction disc has increased the frictional force between defeated paper conveyer belt 5 and the cardboard raw materials, and the cardboard raw materials is more, and the positive pressure on defeated paper conveyer belt 5 is big more, and is also big more to the frictional force of cardboard raw materials, and the frictional force between defeated paper conveyer belt 5 and the cardboard raw materials is greater than the frictional force between cardboard and the cardboard, uses frictional force to accomplish the transport to the cardboard as power.

The upper surface of the pre-conveying belt 6 is higher than the upper surface of the paper conveying belt 5. When the paperboard raw material on the paper conveying conveyor belt 5 falls below the preset value of the principle sensor, the push plate 10 starts to push new paperboard raw material, namely, residual paperboard raw material still exists on the paper conveying conveyor belt 5, and in order to facilitate the push plate 10 to smoothly push the paperboard raw material onto the paper conveying conveyor belt 5, the height of the pre-conveying belt 6 is higher than that of the paper conveying conveyor belt 5, so that new paperboard material is stacked on the residual paperboard raw material.

An upper paper conveying rod 12 and a lower paper conveying rod 13 which are fixedly connected with the shell 1 are further arranged at the opening of the shell 1, the upper paper conveying rod 12 and the lower paper conveying rod 13 are symmetrically arranged about the paper conveying opening 4, a plurality of paper conveying wheels 14 are connected to the upper paper conveying rod 12 and the lower paper conveying rod 13 in a sliding mode, the paper conveying wheels 14 of the upper paper conveying rod 12 face the oblique lower side away from one side of the shell 1, the paper conveying wheels 14 on the lower paper conveying rod 13 face the oblique upper side away from one side of the shell 1, and materials penetrate through the middle of the upper paper conveying rod 12 and the lower paper conveying rod 13. The paper feed wheel 14 is slidably adjustable, and the position of the paper feed wheel 14 is adjusted according to the die-cut shape of the paperboard: the paper feeding wheel 14 on the upper paper feeding rod 12 is adjusted to the area where the scrap edge is located, the paper feeding wheel 14 on the lower paper feeding rod 13 is adjusted to the area where the part to be reserved, so that the paper boards after die cutting are output from the upper die 2 and the lower die 3 and then enter the space between the upper paper feeding rod 12 and the lower paper feeding rod 13, the scrap edge is pressed downwards by the paper feeding wheel 14 on the upper paper feeding rod 12, and the reserved paper boards are jacked upwards by the paper feeding wheel 14 on the lower paper feeding rod 13 so as to separate and reserve the paper boards and the scrap edge.

A paper dropping plate 15 close to the front face of the shell 1 is further arranged outside the shell 1, a side trough 16 is formed in the paper dropping plate 15, and the upper paper conveying rod 12 and the lower paper conveying rod 13 are located right above the side trough 16. The trimmings separated by the feed wheel 14 are fed down into a trim chute 16, while the remaining sheets are left on the drop sheet 15.

The utility model discloses when using, the staff puts whole cardboard raw materials on conveyer belt 6 in advance in a pile-up manner, when pressure sensor detects that the pressure value on defeated paper conveyer belt 5 is less than the default, conveyer belt 6 starts to convey cardboard raw materials forward a fixed distance in advance, push pedal 10 pushes away the cardboard raw materials to defeated paper conveyer belt 5 after defeated belt 6 stops in advance, paper aligning mechanism extrudees cardboard raw materials both sides and levels, defeated paper conveyer belt 5 sends the cardboard raw materials into between upper die 2 and lower die 3 from defeated paper mouth 4, cardboard separation rim charge after the cross cutting, the cardboard that remains falls on falling cardboard 15 and is the finished product; when the paperboard on the paper conveying conveyor belt 5 is consumed below the preset value of the pressure sensor again, the paperboard and the conveyor belt act again to convey the rear paperboard raw material forwards, and the push plate 10 directly pushes the new paperboard raw material onto the residual paperboard raw material on the paper conveying conveyor belt 5, so that circulation is realized, manual feeding is not needed subsequently, and the function of automatic feeding is realized.

The utility model has the advantages that: compared with the prior art, the automatic feeding device has the advantages that the electrical control and the mechanical structure are combined, only the paperboard raw materials are manually stacked for the first time, the automatic feeding is completely realized in the follow-up process, the demand of labor force is effectively reduced, the process flow is shortened, the production efficiency is improved, the labor cost is reduced, and larger profits are obtained.

The above-mentioned embodiments are not intended to limit the scope of the present invention, and various modifications and improvements made by those skilled in the art without departing from the design concept of the present invention should be included in the protection scope defined by the claims of the present invention.

Claims (7)

1. A packaging box paperboard die cutting device comprises a shell (1), wherein an opening is formed in the front of the shell (1), an upper die (2) and a lower die (3) which are rotatably connected with the shell (1) are sequentially arranged in the opening from top to bottom, and the packaging box paperboard die cutting device is characterized in that a paper conveying port (4) which is positioned between the upper die (2) and the lower die (3) is formed in the back of the shell (1), a paper conveying conveyor belt (5), a pre-conveying belt (6) and a supporting table (7) are sequentially arranged on the outer side of the back of the shell (1), a paper aligning mechanism which is fixedly connected with the shell (1) is further arranged above the paper conveying conveyor belt (5), a pressure sensor is arranged below a belt of the paper conveying conveyor belt (5), the paper conveying conveyor belt (5) conveys materials into the paper conveying port (4), the conveying direction of the pre-conveying belt (6) is vertical to the conveying direction of the paper conveying conveyor belt (5), and, a push plate (10) is fixedly connected to a piston rod of the first air cylinder (9).

2. A carton and paperboard die-cutting device according to claim 1, characterized in that the pressure sensor is connected with a wire of a driving motor of the pre-conveying belt (6), the driving motor of the pre-conveying belt (6) is connected with a wire of the first air cylinder (9), and the pressure sensor is also connected with a wire of a paper aligning mechanism.

3. A carton and paperboard die cutting device according to claim 1 or 2, characterized in that the paper aligning mechanism comprises two second air cylinders (11) which are fixed on the shell (1) at a left-right opposite interval, and the piston rods of the two second air cylinders (11) are fixedly connected with the paper aligning plates (8).

4. A carton and paperboard die-cutting device according to claim 1, characterized in that friction plates are fixed on said paper conveying belt (5).

5. A carton and paperboard die-cutting device according to claim 1 or 4, characterised in that the upper surface of said pre-conveyor (6) is higher than the upper surface of the delivery conveyor (5).

6. The package box paperboard die-cutting device according to claim 1, wherein an upper paper conveying rod (12) and a lower paper conveying rod (13) which are fixedly connected with the shell (1) are further arranged at the opening of the shell (1), the upper paper conveying rod (12) and the lower paper conveying rod (13) are symmetrically arranged about the paper conveying opening (4), a plurality of paper conveying wheels (14) are slidably connected to the upper paper conveying rod (12) and the lower paper conveying rod (13), the paper conveying wheels (14) of the upper paper conveying rod (12) face to the oblique lower side of one side which is far away from the shell (1), the paper conveying wheels (14) on the lower paper conveying rod (13) face to the oblique upper side which is far away from one side of the shell (1), and materials pass through the middle of the upper paper conveying rod (12) and the lower paper conveying rod (13).

7. A carton and paperboard die-cutting device according to claim 6, characterized in that a paper dropping plate (15) close to the front face of the shell (1) is arranged outside the shell (1), a side trough (16) is arranged on the paper dropping plate (15), and the upper paper conveying rod (12) and the lower paper conveying rod (13) are positioned right above the side trough (16).

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