CN114834089A

CN114834089A - Corrugated board cutting machine capable of automatically discharging waste

Info

Publication number: CN114834089A
Application number: CN202210503945.XA
Authority: CN
Inventors: 孟华宏; 黎方灯; 俞雪峰; 朱虹
Original assignee: Suzhou Dongshan Sanlian Packaging Printing Co ltd
Current assignee: Suzhou Dongshan Sanlian Packaging Printing Co ltd
Priority date: 2022-05-10
Filing date: 2022-05-10
Publication date: 2022-08-02

Abstract

The invention discloses a corrugated board cutting machine capable of automatically discharging waste, aiming at solving the technical problems of low cutting efficiency and high use cost of the existing cutting machine, and the corrugated board cutting machine comprises a cutting tool, an air suction workbench, two narrow belt lines and a stacking platform, wherein the two narrow belt lines are arranged on two sides of the air suction workbench, and the belt surfaces of the belt lines are 1mm higher than a bedplate of the air suction workbench; the stacking platform is arranged on the rear side of the air suction workbench and is positioned between the two belt lines; the inside cavity of the air suction workbench is internally provided with a floating plate, the floating plate is driven by an air cylinder positioned below the air suction workbench to lift, and the top of the floating plate is embedded with a ball. The automatic feeding of blank, the autosegregation of product and waste material, the automatic unloading pile up neatly of product and the automatic unloading of waste material have been accomplished in the synergism of workstation and the narrow belt line in both sides that induced drafts, need not manual work and peripheral hardware robot, have improved the work efficiency of guillootine, have reduced the use cost of guillootine.

Description

Corrugated board cutting machine capable of automatically discharging waste

Technical Field

The invention belongs to the technical field of packaging carton production equipment, and relates to a corrugated board cutting machine capable of automatically discharging waste.

Background

Corrugated paper is a plate-shaped object formed by bonding liner paper and corrugated paper formed by processing corrugated rollers, and has the advantages of single corrugated paper board and double corrugated paper boards, and the corrugated paper has good buffering performance, is light and firm, and is widely used for transportation and packaging. When the corrugated paper is made into cartons or other packaging articles, the process of dividing the corrugated paper into different sizes and shapes is a necessary process, and the corrugated paper has the performance of facilitating automatic production, so the appearance of the corrugated paper cutting machine gradually replaces the traditional method.

Corrugated paper cutting machine cuts the corrugated paper according to the procedure setting through the blade, and current guillootine can't be with the cardboard that surely goes out and the real-time separation of waste material, needs artifical or external robot to remove cardboard and waste material simultaneously the back separation again. However, for a large-sized corrugated board, at least two workers are required to complete feeding and discharging, or a large-sized external robot is required to complete feeding and discharging, and both cases can increase the cost of cutting the corrugated board.

Disclosure of Invention

The technical problem to be solved by the invention is as follows: provides a cutting machine with high efficiency and low cutting cost.

In order to solve the technical problems, the technical scheme adopted by the invention is as follows:

a corrugated board cutting machine capable of automatically discharging waste comprises a cutting tool, an air suction workbench, two narrow belt lines and a stacking platform, wherein the cutting tool is arranged above the air suction workbench and driven by a three-axis displacement table to operate, the two narrow belt lines are arranged on two sides of the air suction workbench, and the belt surface of each belt line is 1mm higher than a table plate of the air suction workbench; the stacking platform is arranged on the rear side of the air suction workbench and is positioned between the two belt lines; a floating plate is arranged in an inner cavity of the air suction workbench and driven to lift by an air cylinder positioned below the air suction workbench, a ball is embedded in the top of the floating plate, when the air cylinder drives the floating plate to lift to the highest position, the top of the ball is inserted into an air hole of a bedplate at the top of the air suction workbench, and the top end of the ball is higher than the plate surface of the bedplate; a lifting baffle is arranged on one side of the air suction workbench corresponding to the stacking platform, and two electric eye sensors are embedded in the inner side of the lifting baffle; the air suction workbench is provided with a sliding groove on each of two sides of the air suction area, and a push plate arranged in the sliding groove moves along the sliding groove to push the paper board into the stacking platform.

According to the technical scheme, a corrugated board blank (hereinafter referred to as blank) enters an air suction workbench along a belt line and is blocked by an extended pneumatic baffle, a floating plate moves downwards, a ball withdraws from an air hole, negative pressure air flow of the air suction workbench firmly sucks the blank through the air hole, and a cutting tool cuts a product on the blank according to a preset path. Because the narrow belt line is 1mm higher than the air suction workbench, the waste materials are slightly lifted upwards under the supporting effect of the narrow belt line when the connection between the product and the waste materials disappears, and the two belt lines can drive the waste materials to leave the air suction workbench backwards when running. The cut products are left on the air suction workbench under the action of negative pressure, after the waste materials cross the stacking platform, the floating plate moves upwards to a high position, the action of the negative pressure disappears, and the push plate pushes the products into the stacking platform on the rear side.

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

1. the air suction workbench has a negative pressure air suction function, can tightly suck the blank, is convenient for cutting by a cutter, and can assist in completing the separation of the product and the waste material in the blanking process;

2. the ball switching design of the air suction workbench can assist the movement of products and blanks;

3. the automatic feeding of blank, the autosegregation of product and waste material, the automatic unloading pile up neatly of product and the automatic unloading of waste material have been accomplished to the synergism of workstation and the narrow belt line in both sides that induced drafts, need not manual work and peripheral hardware robot, have improved the work efficiency of guillootine, have reduced the use cost of guillootine.

Drawings

In order to more clearly illustrate the technical solutions in the embodiments of the present invention, the drawings used in the description of the embodiments will be briefly introduced below.

Fig. 1 is a schematic view of a corrugated cardboard cutting machine;

FIG. 2 is a schematic cross-sectional view of a suction table;

FIG. 3 is a schematic view of a lift stop and pallet;

fig. 4 is a side cross-sectional view of a narrow belt line.

Detailed Description

In order to make the technical problems, technical solutions and advantageous effects solved by the present invention more apparent, the present invention is further described in detail below with reference to the following embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

Examples

The corrugated board cutting machine shown in fig. 1 comprises a cutting tool 10, an air suction workbench 20, two narrow belt lines 30 and a stacking platform 40, wherein the cutting tool 10 is arranged above the air suction workbench 20 and driven by a three-axis displacement table 130 to operate, the two narrow belt lines 30 are arranged on two sides of the air suction workbench 20, the belt surface of each belt line 30 is 1mm to 2mm higher than the platen of the air suction workbench 20, and the specific height is determined according to the thickness of the paperboard. The stacking platform is arranged on the rear side of the air suction workbench and between the two belt lines 30, the stacking platform is lower than the air suction workbench, and a guide inclined plate (not shown in the figure) is arranged between the air suction workbench and the stacking platform.

Referring to fig. 2, a floating plate 21 is arranged in an inner cavity of the air suction workbench 20, the floating plate 21 is driven to lift by an air cylinder 22 located below the air suction workbench 20, a ball 23 is embedded in the top of the floating plate 21, when the air cylinder drives the floating plate 21 to lift to the highest position, the top of the ball 23 is inserted into an air hole of a bedplate at the top of the air suction workbench 20, and the top end of the ball 23 is higher than the plate surface of the bedplate. One side of the air suction workbench 20 corresponding to the stacking platform 40 is provided with a lifting baffle 50, two electric eye sensors 60 are embedded in the inner side of the lifting baffle 50, when the two electric eye sensors are triggered, the blank is fed in a positive posture, and the machine can perform the next action. The suction table 20 is provided with a chute 24 on each side of the suction area, and a push plate arranged in the chute moves along the chute to push the paper board into the stacking platform 40. A support plate 70 is arranged below the air suction platform, the support plate is driven to lift by a first air cylinder 80 arranged below, the bottom of a push plate 90 is connected to a sliding rail at the top of the support plate in a sliding mode and driven to translate by a second air cylinder, the bottom of a lifting baffle plate 50 is fixedly connected with the top of the support plate by an elastic connecting rod 100, a slot 51 with two through sides is formed in the lifting baffle plate 50, an inserting rod 110 matched with the slot is arranged on one side, corresponding to the lifting baffle plate 50, of the push plate, and the inserting rod is movably connected with the slot through an inclined plane structure.

The operating principle of the cutting machine is as follows: the blank comes to the air suction workbench 20 along the belt line 30, the first air cylinder drives the pneumatic baffle plate to extend out to block the blank, the floating plate 21 is driven to move downwards in a pneumatic mode, the ball 23 withdraws from the air hole, the negative pressure air flow of the air suction workbench 20 firmly sucks the blank through the air hole, and the cutting tool 10 cuts the product on the blank according to a preset path. The narrow belt lines 30 are higher than the air suction workbench 20, the waste materials are slightly lifted upwards under the supporting effect of the narrow belt lines 30 as soon as the connection between the products and the waste materials disappears, and the two belt lines 30 run to drive the waste materials to leave the air suction workbench 20 backwards. The product that is surely cut stays on the workstation 20 that induced drafts under the negative pressure, crosses pile up neatly platform 40 back at the waste material, and pneumatic drive floating plate 21 goes upward to high-order, and the wind hole is stopped up by ball 23, and the adsorption of negative pressure to the product disappears, and cylinder drive push pedal moves to one side of lift baffle 50, and before the push pedal contacts the product, the inserted bar inserts in the slot and presses into the workstation 20 that induced drafts with lift baffle 50, and the push pedal continues to move in the pile up neatly platform 40 that impels the rear side with the product.

As a modification of this embodiment, referring to fig. 4, the belt of the narrow belt line 30 wraps the inner base, the top of the outer base is provided with a pressing plate 120 above the belt, a traveling channel is formed between the pressing plate and the belt, and two sides of the blank are located in the traveling channel. Preferably, a row of rubber rollers 140 arranged along the running direction of the narrow belt line 30 is arranged at the bottom of the pressing plate, the rubber rollers slightly press the top of the blank to play a role in slightly clamping the waste, and the waste can be prevented from being separated from the narrow belt line 30 in the waste blanking process.

As a modification of this embodiment, four guide rods 26 are disposed in the internal cavity of the air suction table 20, and the floating plate 21 is movably connected with the guide rods through guide sleeves, so that the lifting process is more stable. The bottom of the suction table 20 is provided with an openable bottom plate 27, and the guide bar is directly fixedly connected with the bottom plate.

In conclusion, the synergistic effect of the air suction workbench and the narrow belt lines on the two sides in the cutting machine completes automatic feeding of blanks, automatic separation of products and waste materials, automatic discharging and stacking of the products and automatic discharging of the waste materials, manual work and an external robot are not needed, the working efficiency of the cutting machine is improved, and the use cost of the cutting machine is reduced.

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

1. The corrugated board cutting machine capable of automatically discharging waste is characterized by comprising a cutting tool, an air suction workbench, two narrow belt lines and a stacking platform, wherein the cutting tool is arranged above the air suction workbench and driven by a three-axis displacement table to operate, the two narrow belt lines are arranged on two sides of the air suction workbench, and the belt surface of each belt line is 1mm higher than a table plate of the air suction workbench; the stacking platform is arranged on the rear side of the air suction workbench and is positioned between the two belt lines; a floating plate is arranged in an inner cavity of the air suction workbench and driven to lift by an air cylinder positioned below the air suction workbench, a ball is embedded in the top of the floating plate, when the air cylinder drives the floating plate to lift to the highest position, the top of the ball is inserted into an air hole of a bedplate at the top of the air suction workbench, and the top end of the ball is higher than the plate surface of the bedplate; a lifting baffle is arranged on one side of the air suction workbench corresponding to the stacking platform, and two electric eye sensors are embedded in the inner side of the lifting baffle; the air suction workbench is provided with a sliding groove on each of two sides of the air suction area, and a push plate arranged in the sliding groove moves along the sliding groove to push the paper board into the stacking platform.

2. The cutting machine for corrugated cardboard capable of discharging waste automatically as claimed in claim 1, wherein the belt of the narrow belt line covers the inner base, the top of the outer base is provided with a pressing plate above the belt, and a walking channel is formed between the pressing plate and the belt.

3. The cutting machine for corrugated cardboard capable of automatically discharging waste as claimed in claim 2, wherein a row of rubber rollers arranged along the running direction of the narrow belt line is provided at the bottom of the pressing plate.

4. The cutting machine for corrugated cardboards capable of automatically discharging wastes as claimed in claim 1, wherein four guide bars are provided in an inner chamber of the suction table, and the floating plate is movably connected with the guide bars through guide sleeves.

5. The cutting machine for corrugated cardboard capable of automatically discharging waste as claimed in claim 4, wherein an openable bottom plate is provided at the bottom of the suction table, and the guide bar is fixedly connected with the bottom plate.

6. The corrugated cardboard cutting machine capable of automatically discharging waste of claim 1, wherein a support plate is arranged below the air suction platform, the support plate is driven to lift by a first cylinder arranged below, the bottom of the push plate is connected to a slide rail at the top of the support plate in a sliding manner and is driven to translate by a second cylinder, the bottom of the lifting baffle plate is fixedly connected with the top of the support plate by an elastic connecting rod, a slot with two through sides is arranged in the lifting baffle plate, an inserting rod matched with the slot is arranged on one side of the push plate corresponding to the lifting baffle plate, and the inserting rod is movably connected with the slot by an inclined plane structure.