CN214527227U

CN214527227U - Multilayer corrugated board stacking mechanism and corrugated board production equipment

Info

Publication number: CN214527227U
Application number: CN202120433730.6U
Authority: CN
Inventors: 杨鹏; 刘惠林; 孙景鹏; 王振华; 刘英超
Original assignee: Qingdao Wanwei Intelligent Industry Co ltd
Current assignee: Qingdao Wanwei Intelligent Industry Co ltd
Priority date: 2021-03-01
Filing date: 2021-03-01
Publication date: 2021-10-29
Anticipated expiration: 2031-03-01

Abstract

The utility model belongs to the corrugated board processing field, in particular to a multi-layer corrugated board stacking mechanism and corrugated board production equipment consisting of the multi-layer corrugated board stacking mechanism, which comprises a paper stacking platform, wherein the paper stacking platform is controlled by a lifting motor to lift up and down, and the multi-layer corrugated board stacking mechanism also comprises an upper vacuum adsorption type conveying device which is arranged above the paper stacking platform; push away from the device from top to bottom, push away from the device setting from top to bottom and in last suction vacuum adsorption formula conveyor top, carry the adsorbate propelling movement on the last suction vacuum adsorption formula conveyor to the pile paper platform, when the cardboard is not level enough, the powerful suction of accessible conveyor, with its smooth lower face that adsorbs on conveyor, can send the cardboard into the gap between the roller of form advancing, then lift off by pushing away from the device from top to bottom, and then do not influence subsequent normal work, when final corrugated container board's stack, the stack of corrugated container board is convenient for to the vacuum conveying mechanism of updraught type.

Description

Multilayer corrugated board stacking mechanism and corrugated board production equipment

Technical Field

The utility model belongs to corrugated container board processing field, concretely relates to multilayer corrugated container board stacking mechanism reaches corrugated container board production facility that constitutes by this multilayer corrugated container board stacking mechanism.

Background

In corrugated container board processing field, current unit of form advancing adopts conveyer belt transport mechanism, and corrugated container board sends to the stack district through the conveyer belt, and the speed difference through the conveyer belt when trading and stacking pulls open the cardboard and realize dividing the buttress, and the corrugated paper in stack district reaches the manual work when certain height and takes out, and this kind of stack mode has a lot of defects:

1. when the stack is changed, because the speeds of all sections of the conveying belt are different, the paperboards are mutually extruded during conveying, and the paper boards are easy to be skewed and untidy;

2. when the stack is changed, the speed of the conveying belt is reduced, so that the thickness of the stacked paper boards is increased, and the paper stacking disorder is easily caused;

3. the whole stack changing process needs time, generally more than 6 seconds, and small stack changing cannot be realized;

4. when the stack is taken out manually, the stack is difficult to take and wastes time and labor to bend down and enter the stacking area.

SUMMERY OF THE UTILITY MODEL

The utility model provides a not enough to prior art, the utility model provides a multilayer corrugated container board stacking mechanism and the corrugated container board production facility that constitutes by this multilayer corrugated container board stacking mechanism is used for corrugated container board's stack in corrugated container board's processing technology field.

In order to solve the technical problem, the utility model provides a following technical scheme:

a multi-layer corrugated board stacking mechanism comprises a paper stacking platform, wherein the paper stacking platform is controlled by a lifting motor to lift up and down, and the multi-layer corrugated board stacking mechanism also comprises an upper vacuum adsorption type conveying device, and the upper vacuum adsorption type conveying device is arranged above the paper stacking platform; and the up-down pushing device is arranged above the up-suction vacuum adsorption type conveying device and pushes adsorbed substances on the up-suction vacuum adsorption type conveying device to the paper stacking platform.

Preferably, the upward suction vacuum adsorption type conveying device comprises a conveying device, the conveying device is provided with a conveying belt arranged along the conveying direction, a negative pressure air box is provided with an air suction opening, the conveying belt is tightly attached to the negative pressure air box and is arranged below the negative pressure air box, the conveying belt and the negative pressure air box are correspondingly provided with adsorption openings, and the negative pressure air box and the conveying device are arranged into at least two groups; the conveying rollers are arranged between the conveying belts, the conveying rollers are provided with driving shafts, the driving shafts are driven by a motor, and the conveying rollers are arranged in a plurality of rows and are uniformly distributed; and the air port of the fan is communicated with the negative pressure air box to provide negative pressure for the negative pressure air box.

Preferably, the negative pressure air box is arranged into a strip-shaped channel, the surface of the strip-shaped channel is provided with an air suction opening, the negative pressure air box comprises a plurality of negative pressure air boxes arranged side by side, the conveying roller wheels are arranged between the strip-shaped channels, and the distance between every two groups of negative pressure air boxes is at least 5-50 CM.

Preferably, the negative pressure bellows can also be arranged into a box body with an air suction opening arranged on the surface, the conveying rollers are arranged in the negative pressure bellows, the extended negative pressure bellows are arranged between the conveying belts, and the conveying rollers are uniformly distributed on the surface of the negative pressure bellows.

Preferably, the up-down pushing-off device is arranged above the up-suction vacuum adsorption type conveying device, is arranged corresponding to the conveying belts, and is provided with at least two up-down pushing-off devices corresponding to each conveying belt.

Preferably, push away from device from top to bottom includes that installing support, discharge arm, spring push down mechanism, actuating mechanism, drive mechanism and motor, and the installing support setting is in the conveyer belt top, and the discharge arm corresponds the empty crotch setting between the conveyer belt, and spring push down mechanism drive discharge arm up-and-down motion, actuating mechanism and drive mechanism drive the discharge arm action on transmitting the power of motor to spring push down mechanism.

Preferably, push away from the device from top to bottom and correspond the absorption mouth setting, every pushes away from the device from top to bottom and drives two discharge bars, and actuating mechanism sets up to the drive wheel, and drive mechanism sets up to slider-crank mechanism, and the drive wheel is fixed on a clamp plate that stretches across two discharge bars, and slider-crank mechanism drives the action of drive wheel and the clamp plate action pushes down two discharge bars simultaneously.

The technical scheme includes that the paper stacking device comprises a paper stacking platform, wherein the paper stacking platform is controlled by a lifting motor to lift up and down, and the paper stacking device further comprises an upper suction vacuum adsorption type conveying device, and the upper suction vacuum adsorption type conveying device is arranged above the paper stacking platform; and the up-down pushing device is arranged above the up-suction vacuum adsorption type conveying device and pushes adsorbed substances on the up-suction vacuum adsorption type conveying device to the paper stacking platform. According to the paper piling and paper stacking mechanism in the technical scheme, the upper suction vacuum adsorption type conveying device is arranged above the paper stacking platform, the conveying device can adsorb the paper boards and then convey the paper boards to the designated position, and then the paper boards are pushed down onto the paper stacking platform by the up-down pushing and separating device. The adsorption type conveying device fundamentally solves the problem that the paperboard is extruded due to the uneven speed of the conveying belt, and the paperboard is pushed down by the up-down pushing device when reaching the position, so that the conveying position is accurate. And fundamentally avoids the problem of disordered piled paper with over-thick piled paper.

The negative pressure bellows of the conveying device of the technical scheme can be realized in various ways as long as the required suction force can be realized.

This technical scheme pushes away from device setting from top to bottom in last vacuum adsorption formula conveyor's top, corresponds the conveyer belt setting, and every conveyer belt setting is at least two and pushes away from the device from top to bottom. Push away from device from top to bottom and include installing support, discharge arm, spring push down mechanism, actuating mechanism, drive mechanism and motor, the installing support setting is in the conveyer belt top, and the discharge arm corresponds the vacancy setting between the conveyer belt, and spring push down mechanism drive discharge arm up-and-down motion, and actuating mechanism and drive mechanism drive discharge arm action on transmitting the power transmission of motor to spring push down mechanism. The mounting bracket is an n-shaped groove, and a lightening hole is formed in the side surface of the n-shaped groove; the spring pressing mechanism comprises a stand column, a spring, a stop block, a baffle plate and a stop cover, the stand column is fixed to the top end of the mounting support, the stop block penetrates through the stand column and divides the stand column into an upper part and a lower part, the spring is sleeved on the upper part of the stand column, the stop cover is fixed to the top end of the stand column, and the baffle plate is vertically fixed to the bottom of the baffle plate. The adsorption conveying mechanism comprises a conveying belt, air suction pipes and side plates, the air suction pipes are arranged at two ends of the n-shaped groove, a vent is arranged on the side wall of the air suction pipe, which is opposite to the notch of the n-shaped groove, the side plates are arranged at two sides of the conveying belt, the conveying belt is arranged at the lower side of the n-shaped groove and is used for conveying along the channel direction of the n-shaped groove, and small air outlet holes are formed in the conveying belt; when the material stacking device is pressed down and is in a non-working state, the lightening holes of the n-shaped groove are always blocked by the side plates on the two sides of the conveying belt, and the phenomenon that the suction force is dispersed through the lightening holes in the air suction process can not occur. When corrugated container board transported to pushing down the windrow device, discharge mechanism pushed down, and the top surface at n type groove both ends drops to the downside of aspiration channel vent, can cut off the route of induced drafting, under the effect of discharge arm, pushes away corrugated container board to the stack district.

On the basis of the common knowledge in the field, the above-mentioned preferred conditions can be combined at will to obtain the embodiment of the invention.

The utility model has the advantages that the positive effect is that,

1. when the paperboard is not flat enough, the paperboard can be flatly adsorbed on the lower plate surface of the conveying device through strong suction force of the conveying device, the paperboard can be fed into a gap between the paper feeding rollers, and then the paperboard is unloaded by the up-down pushing device without influencing subsequent normal work;

2. the conveying mode is a paper feeding speed block, the efficiency of the whole production line of the corrugated board is high, the production progress is improved, and the phenomena of extrusion and the like are avoided;

3. the paperboard is conveyed below the conveying belt, is bound on the lower plate surface of the conveying device through the suction force of the conveying device, cannot generate position change in the conveying process, reaches a specified position, and is accurately pushed away by the up-down pushing-away device, so that other operations on a subsequent production line are smoothly carried out, and finally, the production efficiency of the corrugated board is high;

4. in the production process, the corrugated boards with defective quality are always inevitable, and the defective corrugated boards can be removed by the adsorption mode;

5. during final stacking of the corrugated boards, the up-suction type vacuum conveying device is convenient for stacking of the corrugated boards;

6. when the waste paper boards appear, the system can automatically convey the paper boards to a designated place and then lift the paper boards off by the up-down pushing device, so that the process of manually removing the waste paper boards is avoided.

Drawings

FIG. 1 is a schematic structural view of the present solution;

FIG. 2 is a schematic structural view of the present solution;

FIG. 3 is a schematic structural view of a sheet stacking apparatus according to the present embodiment;

FIG. 4 is a schematic structural diagram of a paper stacking device of the present embodiment with an upper vacuum adsorption device;

FIG. 5 is a schematic structural view of the vacuum suction apparatus according to the present embodiment;

FIG. 6 is a schematic structural view of the vacuum suction apparatus according to the present embodiment;

FIG. 7 is an enlarged view of a portion of FIG. 6;

FIG. 8 is a schematic structural view of the push-up and push-down apparatus of the present embodiment;

fig. 9 is a schematic structural view of the up-down pushing device according to this embodiment.

1-a paper stacking platform I; 2-a second paper stacking platform; 3-a conveying section; 4-paper stacking platform; 5-a lifting motor; 6-an updraught vacuum adsorption type conveying device; 7-up and down pushing away the device; 8-a conveyor belt; 9-negative pressure bellows; 10-an air suction opening; 11-conveying rollers; 12-a discharge bar; 13-a slider-crank mechanism; 14-a mounting bracket; 15-pressing plate; 16-a drive wheel; 17-a spring hold down mechanism; 18-wind shield.

Detailed Description

In order to make the purpose, technical solution and advantages of the embodiments of the present invention clearer, the following drawings in the embodiments of the present invention are combined to further describe the technical solution in the embodiments of the present invention.

Example 1

A multi-layer corrugated board stacking mechanism comprises a paper stacking platform 4, wherein the paper stacking platform 4 is controlled by a lifting motor 5 to lift up and down, and the multi-layer corrugated board stacking mechanism also comprises an upper suction vacuum adsorption type conveying device 6, and the upper suction vacuum adsorption type conveying device 6 is arranged above the paper stacking platform 4; and the up-down pushing device 7 is arranged above the up-suction vacuum adsorption type conveying device 6, and pushes adsorbed substances on the up-suction vacuum adsorption type conveying device 6 to the paper stacking platform 4. The upper suction vacuum adsorption type conveying device 6 comprises a conveying device, wherein the conveying device is provided with a conveying belt 8 and a negative pressure air box 9 which are arranged along the conveying direction, the negative pressure air box 9 is provided with an air suction opening 10, the conveying belt 8 is tightly attached to the negative pressure air box 9 and is arranged below the negative pressure air box 9, the conveying belt 8 and the negative pressure air box 9 are correspondingly provided with the air suction opening 10, and the negative pressure air box 9 and the conveying device are arranged into at least two groups; the conveying rollers 11 are arranged between the conveying belts 8, the conveying rollers 11 are provided with driving shafts, the driving shafts are driven by motors, and the conveying rollers 11 are arranged in a plurality of rows and are uniformly distributed; and the air port of the fan is communicated with the negative pressure air box 9 to provide negative pressure for the negative pressure air box 9. The negative pressure air box 9 is a strip-shaped channel with an air suction opening 10 arranged on the surface and comprises a plurality of negative pressure air boxes 9 arranged side by side, the conveying roller wheels 11 are arranged between the strip-shaped channels, and the distance between every two groups of negative pressure air boxes is 5-50 cm. The up-down pushing-off device 7 is arranged above the up-suction vacuum adsorption type conveying device 6, is arranged corresponding to the conveying belts 8, and is provided with at least two up-down pushing-off devices 7 corresponding to each conveying belt 8. Push away from device 7 from top to bottom includes installing support 14, discharge arm 12, spring pushing down mechanism 17, actuating mechanism, drive mechanism and motor, and installing support 14 sets up in the conveyer belt 8 top, and discharge arm 12 corresponds the seat setting between the conveyer belt 8, and spring pushing down mechanism 17 drives discharge arm 12 up-and-down motion, and actuating mechanism and drive mechanism drive discharge arm 12 action on with the power transmission of motor to spring pushing down mechanism 17. Push away from device 7 from top to bottom and correspond inlet scoop 10 setting, every pushes away from device 7 from top to bottom and drives two discharge bars 12, and actuating mechanism sets up to drive wheel 16, and drive mechanism sets up to slider-crank mechanism 13, and drive wheel 16 is fixed on a clamp plate 15 that stretches across two discharge bars 12, and slider-crank mechanism 13 drives the action of drive wheel 16 and simultaneously the action of clamp plate 15 pushes down two discharge bars 12 simultaneously.

Example 2:

the difference between this embodiment and embodiment 1 is that the negative pressure bellows is configured as a box body with an air suction opening on one surface, the conveying rollers are disposed in the negative pressure bellows, the extended negative pressure bellows is disposed between the conveying belts, and the conveying rollers are uniformly distributed on the surface of the negative pressure bellows.

Example 3:

this embodiment is a corrugated cardboard production apparatus comprising the multi-ply corrugated cardboard stacking mechanism of embodiment 1.

Example 4:

the present embodiment is different from embodiment 3 in that the multilayer corrugated cardboard stacking mechanism of the present embodiment is provided as the multilayer corrugated cardboard stacking mechanism of embodiment 2.

Furthermore, it should be understood that although the present description refers to embodiments, not every embodiment may contain only a single embodiment, and such description is for clarity only, and those skilled in the art should integrate the description, and the embodiments may be combined as appropriate to form other embodiments understood by those skilled in the art.

Claims

1. A multi-layer corrugated board stacking mechanism comprises a paper stacking platform, wherein the paper stacking platform is controlled by a lifting motor to lift up and down, and the multi-layer corrugated board stacking mechanism is characterized by further comprising

The upper suction vacuum adsorption type conveying device is arranged above the paper stacking platform;

and the up-down pushing device is arranged above the up-suction vacuum adsorption type conveying device and pushes adsorbed substances on the up-suction vacuum adsorption type conveying device to the paper stacking platform.

2. The multi-ply corrugated cardboard stacking mechanism of claim 1 wherein: the upper suction vacuum adsorption type conveying device comprises a conveying device, wherein the conveying device is provided with a conveying belt arranged along the conveying direction, a negative pressure air box is provided with an air suction opening, the conveying belt is arranged below the negative pressure air box in a manner of being clung to the negative pressure air box, the conveying belt and the negative pressure air box are correspondingly provided with adsorption openings, and the negative pressure air box and the conveying device are arranged into at least two groups; the conveying rollers are arranged between the conveying belts, the conveying rollers are provided with driving shafts, the driving shafts are driven by a motor, and the conveying rollers are arranged in a plurality of rows and are uniformly distributed; and the air port of the fan is communicated with the negative pressure air box to provide negative pressure for the negative pressure air box.

3. The multi-ply corrugated cardboard stacking mechanism of claim 2 wherein: the negative pressure air box is arranged into a strip-shaped channel with an air suction opening arranged on the surface, the negative pressure air box comprises a plurality of negative pressure air boxes arranged side by side, the conveying roller wheels are arranged between the strip-shaped channels, and the distance between every two groups of negative pressure air boxes is 5-50 cm.

4. The multi-ply corrugated cardboard stacking mechanism of claim 2 wherein: the negative pressure air box is a box body with an air suction opening arranged on the surface, the conveying rollers are arranged in the negative pressure air box, the extended negative pressure air box is arranged between the conveying belts, and the conveying rollers are uniformly distributed on the surface of the negative pressure air box.

5. A stacking mechanism for multi-ply corrugated cardboard as claimed in claim 3 or 4 wherein: the up-down pushing device is arranged above the up-suction vacuum adsorption type conveying device, corresponds to the conveying belt arrangement, and is provided with at least two up-down pushing devices corresponding to each conveying belt.

6. The multi-ply corrugated cardboard stacking mechanism of claim 5 wherein: push away from device from top to bottom and include installing support, discharge arm, spring push down mechanism, actuating mechanism, drive mechanism and motor, the installing support setting is in the conveyer belt top, and the discharge arm corresponds the vacancy setting between the conveyer belt, and spring push down mechanism drive discharge arm up-and-down motion, and actuating mechanism and drive mechanism drive discharge arm action on transmitting the power transmission of motor to spring push down mechanism.

7. The multi-ply corrugated cardboard stacking mechanism of claim 6 wherein: push away from the device from top to bottom and correspond the absorption mouth setting, every pushes away from the device from top to bottom and drives two discharge arms, and actuating mechanism sets up to the drive wheel, and drive mechanism sets up to slider-crank mechanism, and the drive wheel is fixed on one stretches over the clamp plate of two discharge arms, and slider-crank mechanism drives the clamp plate action when the drive wheel action and pushes down two discharge arms simultaneously.

8. A corrugated cardboard production apparatus comprising a multi-ply corrugated cardboard stacking mechanism according to any one of claims 1 to 7.