CN215701942U - Paperboard cutting device with regular components - Google Patents

Abstract

A paperboard cutting device with a regular assembly comprises a machine table, a cutting assembly and a regular assembly. The structured assembly includes a base plate, a structured plate, a fastener, and a glass film. The structured plate comprises a connecting plate, a second sliding groove, a side plate and an arc-shaped plate. The two side plates are located between the two connecting plates, and an included angle between a plane where the side plates are located and a plane where the connecting plates are located is an obtuse angle, so that the two side plates and the base plate form a wedge-shaped groove structure, and the distance between the two side plates is gradually reduced towards the direction far away from the cutting assembly. The cut paperboards are slightly folded under the action of the wedge-shaped groove structure in the moving process of the structured assembly, one end of each paperboard is overlapped on the next cut paperboard under the pushing of the subsequent paperboards, so that the plurality of cut paperboards are stacked in order, and when the structured assembly is full, the cut paperboards can be directly taken away manually without being stacked manually.

Description

Paperboard cutting device with regular components

Technical Field

The utility model relates to the technical field of cutting devices, in particular to a paperboard cutting device with a regular assembly.

Background

In the processing and manufacturing of the paperboard, a large-area paperboard or a large-area paperboard needs to be cut into multiple sections of the same size by a cutting device so as to facilitate the subsequent processing. However, the cut sheets need to be stacked and placed at a designated position for further processing. All be with a case or conveyer belt setting on cutting device's output direction among the prior art, make the cardboard that cuts the completion drop to the case or on the conveyer belt along with the promotion of follow-up cardboard, then stack the arrangement through the manual work to the cardboard that cuts the completion, it is inefficient, and the cost of labor is high.

SUMMERY OF THE UTILITY MODEL

In view of the above, the present invention provides a paperboard cutting device with a regulating assembly to solve the above technical problems.

The utility model provides a cardboard cutting device with regular subassembly, includes a board, one sets up cutting components on the board, and one sets up on the board and be located regular subassembly on the output direction of cutter unit spare. Regular subassembly includes that one sets up just be located on the board base plate on the output direction of cutting element, two slip settings are in regular board on the base plate, and one sets up regular board with glass film on the base plate. Each structured plate comprises a connecting plate arranged on the base plate, a side plate arranged on the connecting plate, and an arc-shaped plate connected with one end of the side plate. The side plates are connected with one sides of the connecting plates, the two side plates are located between the two connecting plates, and an included angle between a plane where the side plates are located and a plane where the connecting plates are located is an obtuse angle, so that the two side plates and the base plate form a wedge-shaped groove structure. The distance between the two side plates is gradually reduced towards the direction far away from the cutting assembly. The arc-shaped plate is connected with one end, close to the cutting assembly, of the side plate. And the size of the opening between the two arc-shaped plates is gradually increased towards the direction of the cutting assembly.

Furthermore, the cutting assembly comprises a cutter holder arranged on the machine table, four support columns vertically arranged on the machine table, a top plate arranged on the support columns, a driving air cylinder arranged on the top plate, and a cutter connected with the output end of the driving air cylinder.

Furthermore, a V-shaped groove is formed in one end face, facing the cutter, of the cutter holder.

Furthermore, four support columns are respectively located on two sides of the tool apron in a pairwise manner, one end of each support column is connected with the machine table, and the other end of each support column is connected with four corners of the top plate.

Further, the cutting edge of the cutter is V-shaped and faces the cutter seat.

Further, the plane of the regulating assembly is parallel to the plane of the tool apron.

Furthermore, at least two first sliding grooves are formed in the base plate, and the extending direction of the first sliding grooves is parallel to the arrangement direction of the two regular plates.

Further, each of the leveling plates further comprises at least two second sliding grooves formed in the connecting plate. The extending direction of the second sliding chute is perpendicular to the extending direction of the first sliding chute.

Further, the regulating assembly further comprises a plurality of fasteners for connecting the regulating plate and the base plate, and the fasteners are arranged in the first sliding groove and the second sliding groove in a penetrating mode.

Compared with the prior art, each regular plate of the paperboard cutting device with the regular assembly comprises a connecting plate, a second sliding groove, a side plate and an arc-shaped plate. The included angle between the plane of the side plate and the plane of the connecting plate is an obtuse angle, so that the two side plates and the base plate form a wedge-shaped groove structure, and the distance between the two side plates is gradually reduced towards the direction far away from the cutting assembly. The arc-shaped plates are connected with one end, close to the cutting assembly, of the side plate, and the size of the opening between the two arc-shaped plates is gradually increased towards the cutting assembly. The glass film is covered in the wedge-shaped groove structure, so that the wedge-shaped groove structure is smoother, and the paper board after cutting is convenient to slide. The cut paperboards are slightly folded in the process of moving in the regulating assembly, one end of each paperboard is overlapped on the next cut paperboard under the pushing of the subsequent paperboards, so that the plurality of cut paperboards are orderly stacked, and when the regulating assembly is full, a worker can directly take away the cut paperboards without manually stacking the cut paperboards.

Drawings

FIG. 1 is a right side view of a paperboard cutting apparatus with a structured assembly in accordance with the present invention.

FIG. 2 is a top view of the paperboard cutting apparatus with the organizer of FIG. 1 with the top plate and knife removed.

FIG. 3 is a schematic view of a structured assembly of the paperboard cutting apparatus of FIG. 1 having a structured assembly.

FIG. 4 is a schematic illustration of the configuration of the paperboard to be cut by the paperboard cutting apparatus of FIG. 1 having a structured assembly.

FIG. 5 is a schematic view of the paperboard cutting apparatus of FIG. 1 with a structured assembly showing a stack of cut paperboard.

Detailed Description

Specific examples of the present invention will be described in further detail below. It should be understood that the description herein of embodiments of the utility model is not intended to limit the scope of the utility model.

Referring to FIGS. 1-5, a schematic diagram of a paperboard cutting apparatus with a structured assembly is provided. The paperboard cutting device with the regular components comprises a machine table 10, a cutting component 20 arranged on the machine table 10, and a regular component 30 arranged on the machine table 10 and located in the output direction of the cutter component 20. It is contemplated that the cutting device with the organizer assembly may include other functional modules, such as a feeding mechanism for the sheets, a driving assembly, etc., which are well known to those skilled in the art and will not be described herein.

First, the paperboard cutting apparatus with the organizer assembly is used to cut the paperboard 100 into sections. The cross-section of the paperboard 100 is V-shaped, which is per se prior art and will not be described further herein.

The machine 10 is used for carrying the above functional modules, i.e. the cutting assembly 20 and the regulating assembly 30, so that the machine is provided with various functional structures, such as screws, bolts, clamps, grooves, etc., to complete the installation and assembly of the above functional modules, which can be arranged according to actual needs, and will not be described in detail herein.

The cutting assembly 20 includes a tool holder 21 disposed on the machine table 10, four supporting columns 22 vertically disposed on the machine table 10, a top plate 23 disposed on the supporting columns 22, a driving cylinder 24 disposed on the top plate 23, and a tool 25 connected to an output end of the driving cylinder 24.

One end face, facing the cutter 25, of the cutter holder 21 is provided with a V-shaped groove 211, and the paperboard 100 is placed on the V-shaped groove 211. The four supporting columns 22 are respectively located on two sides of the tool apron 21 in pairs. One end of the supporting column 22 is connected to the machine table 10, and the other end of the supporting column is connected to four corners of the top plate 23. The top plate 23 is used for arranging the driving cylinder 24. The output end of the driving cylinder 24 penetrates through the top plate 23 to be connected with the cutter 25, and is used for driving the cutter 25 to reciprocate, so that the cutter 25 is closed or separated from the cutter holder 21, and the cutting of the paperboard 100 is realized. The cutting edge of the cutter 25 is V-shaped and faces the tool seat 21. The paper sheets 100 are moved toward the direction of the regulating assembly 30 by the external pushing device, and then the knife 25 is moved back and forth by the driving cylinder 24 to close the knife 25 and the knife holder 21, thereby cutting off the paper sheets 100. As subsequent sheets 100 continue to move, the cut sheets 100 may be pushed, thereby pushing the cut sheets 100 toward the structured assembly 30. In order to smoothly feed the cut sheets 100 to the structured assembly 30, the plane of the structured assembly 30 is parallel to the plane of the knife block 21, so that the sheets have the same height and no height difference.

The regulating assembly 30 comprises a base plate 31 which is arranged on the machine table 10 and positioned in the output direction of the cutting assembly 20, two regulating plates 32 which are arranged on the base plate 31 in a sliding mode, a plurality of fasteners 33 which are connected with the regulating plates 32 and the base plate 31, and a glass film 34 which is arranged on the regulating plates 32 and the base plate 31.

At least two first sliding grooves 311 are formed in the base plate 31, and the extending direction of the first sliding grooves 311 is parallel to the arrangement direction of the two regular plates 32, so that the two regular plates 32 can slide through the first sliding grooves 311 and adjust the distance between the two regular plates, and the base plate 31 is suitable for paper boards with different specifications.

Each of the leveling plates 32 includes a connecting plate 321 disposed on the base plate 31, at least two second sliding grooves 322 disposed on the connecting plate 321, a side plate 323 disposed on the connecting plate 321, and an arc-shaped plate 324 connected to one end of the side plate 323.

The extending direction of the second sliding slot 322 is perpendicular to the extending direction of the first sliding slot 311, the fastening member 33 is inserted into the first and second sliding slots 311, 322, the connecting plate 321 can be close to or far from the cutting assembly 20 through the second sliding slot 322, and then the fastening member 33 is locked, so as to connect the connecting plate 321 and the base plate 31 and adjust the distance between the normalization assembly 30 and the cutting assembly 20 to adapt to different conditions.

The side plates 323 are connected with one side of the connecting plate 321, two side plates 323 are located between the two connecting plates 321, an included angle between a plane where the side plates 323 are located and a plane where the connecting plates 321 are located is an obtuse angle, so that the two side plates 323 and the base plate 31 form a wedge-shaped groove structure, and a distance between the two side plates 323 gradually decreases in a direction away from the cutting assembly 20, so that when the paper board 100 which is completely cut and is in a V shape moves in the wedge-shaped groove structure, another paper board 100 which is completely cut can be slightly folded and clamped.

The arc-shaped plates 324 are connected with one end of the side plate 323 close to the cutting assembly 20, and the size of the opening between the two arc-shaped plates 324 gradually increases towards the cutting assembly 20, so that the arc-shaped plates 324 have a certain guiding function to receive the paper board 100 output from the cutting assembly 20.

The glass film 34 is covered in the wedge-shaped groove structure, so that the wedge-shaped groove structure is smoother, and the paper board 100 after cutting is convenient to slide.

After the cut sheets 100 enter the structured assembly 30, the cut sheets 100 first contact the two curved plates 324 and continue to move toward the side plates 323 as the subsequent sheets 100 are pushed. Because the included angle between the plane of the side plate 323 and the plane of the connecting plate 321 is an obtuse angle, the two side plates 323 and the base plate 31 form a wedge-shaped groove structure, and the distance between the two side plates 323 gradually decreases in the direction away from the cutting assembly 20. So that the cut paper boards 100 are slightly folded during the movement and one end of the following paper board 100 is overlapped on the next cut paper board 100 as shown in fig. 5. The plurality of cut sheets 100 are then stacked in order and can be removed directly by a worker when the organizer 30 is full, without manual stacking.

In contrast to the prior art, each of the regulating plates 32 of the paperboard cutting apparatus with a regulating assembly provided by the present invention includes a connecting plate 321, a second chute 322, a side plate 323, and an arc plate 324. The included angle between the plane of the side plate 323 and the plane of the connecting plate 321 is an obtuse angle, so that the two side plates 323 and the base plate 31 form a wedge-shaped groove structure, and the distance between the two side plates 323 gradually decreases in a direction away from the cutting assembly 20. The arc-shaped plates 324 are connected with one end of the side plate 323 close to the cutting assembly 20, and the size of the opening between the two arc-shaped plates 324 is gradually increased towards the cutting assembly 20. The glass film 34 is covered in the wedge-shaped groove structure, so that the wedge-shaped groove structure is smoother, and the paper board 100 after cutting is convenient to slide. The cut sheets 100 are slightly folded during the movement of the structured assembly 30, and one end of each of the cut sheets 100 is placed on the next cut sheet 100 under the pushing of the subsequent sheet 100, so that the cut sheets 100 are stacked in order, and when the structured assembly 30 is full, the worker can directly take the cut sheets without manually stacking the sheets.

The above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the scope of the present invention, and any modifications, equivalents or improvements that are within the spirit of the present invention are intended to be covered by the following claims.

Claims (9)

1. A paperboard cutting device with a structured assembly, characterized in that: the paperboard cutting device with the regular components comprises a machine table, a cutting component arranged on the machine table, and a regular component arranged on the machine table and positioned in the output direction of the cutting component, wherein the regular component comprises a base plate arranged on the machine table and positioned in the output direction of the cutting component, two regular plates arranged on the base plate in a sliding manner, and a glass film arranged on the regular plates and the base plate, each regular plate comprises a connecting plate arranged on the base plate, a side plate arranged on the connecting plate, and an arc plate connected with one end of the side plate, the side plate is connected with one side of the connecting plate, the two side plates are positioned between the two connecting plates, and the plane where the side plate is positioned and the plane where the connecting plate is positioned form an obtuse angle, so that two the curb plate with the base plate forms a wedge groove structure, two distance between the curb plate is to keeping away from cutting unit's direction reduces gradually, the arc with the curb plate is close to cutting unit's one end is connected, and two opening size between the arc gradually to cutting unit's direction grow.

2. The paperboard cutting apparatus with a structured assembly as set forth in claim 1, wherein: the cutting assembly comprises a cutter holder arranged on the machine table, four support columns vertically arranged on the machine table, a top plate arranged on the support columns, a driving air cylinder arranged on the top plate, and a cutter connected with the output end of the driving air cylinder.

3. The paperboard cutting apparatus with a structured assembly as set forth in claim 2, wherein: and one end surface of the cutter holder facing the cutter is provided with a V-shaped groove.

4. The paperboard cutting apparatus with a structured assembly as set forth in claim 2, wherein: and the four support columns are respectively positioned on two sides of the tool apron in pairs, one end of each support column is connected with the machine table, and the other end of each support column is connected with four corners of the top plate.

5. The paperboard cutting apparatus with a structured assembly as set forth in claim 2, wherein: the cutting edge of the cutter is V-shaped and faces the cutter holder.

6. The paperboard cutting apparatus with a structured assembly as set forth in claim 2, wherein: the plane of the regular assembly is parallel to the plane of the tool apron.

7. The paperboard cutting apparatus with a structured assembly as set forth in claim 1, wherein: at least two first chutes are arranged on the base plate, and the extending direction of the first chutes is parallel to the arrangement direction of the two regulating plates.

8. The paperboard cutting apparatus with a structured assembly of claim 7 wherein: each of the regulation plates further comprises at least two second sliding grooves formed in the connecting plate, and the extending direction of the second sliding grooves is perpendicular to the extending direction of the first sliding grooves.

9. The paperboard cutting apparatus with a structured assembly of claim 8 wherein: the regular assembly further comprises a plurality of fasteners which are connected with the regular plate and the base plate, and the fasteners penetrate through the first sliding groove and the second sliding groove.

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