CN215040800U - Corrugated board production device with chute - Google Patents

Abstract

The utility model discloses a corrugated board production device of a chute, which comprises a material raw material frame component, a feeding roller component, an adhesion component, a press-fit component and a grooved roller component, wherein the press-fit component is positioned above the grooved roller component, the adhesion component is contacted with the side surface of the grooved roller component, the material raw material frame component is positioned below the side of the grooved roller component, the feeding roller component is positioned between the grooved roller component and the material raw material frame component, the grooved roller component comprises a first grooved roller and a second grooved roller, the first grooved roller is meshed with the second grooved roller, the first grooved roller is positioned under the press-fit component, the side surface of the first grooved roller is contacted with the press-fit component, the adhesion component comprises an adhesion material disc, a first adhesion rotating wheel and a second adhesion rotating wheel, the first adhesion rotating wheel is contacted with the second adhesion rotating wheel, the second adhesion rotating wheel is positioned above the adhesion material disc, the first adhesion rotating wheel is contacted with the side surface of the first grooved roller, the device has strong practicability.

Description

Corrugated board production device with chute

Technical Field

The utility model relates to a corrugated container board production field specifically is a corrugated container board apparatus for producing of chute.

Background

Fluted corrugated cardboard has been used for approximately 150 years in the protection of products, including boxes, display stands and trays. Fluted corrugated board has been produced in substantially the same way since the end of the 19 th century. The corrugator machine loads multiple layers of paper, presses a flute against one of them, and then bonds them together. The flutes of the formed corrugated board are perpendicular to the direction of material movement.

These corrugated boards have limitations when fabricated into trays, boxes, display stands, and other structures. Their compressive strength may be very inconsistent. For example, the compression strength of the 200# rupture test board made from these corrugated cardboards is 600-800 lbs. To achieve this range of performance, manufacturers may need to make boxes or trays with the highest compressive strength possible. In view of this variability, it may be desirable to sandwich multiple layers of fluted material simultaneously to make a box that can maintain the desired strength at all times. More complex box designs may also be required. These additional materials and complex designs may increase the price of the case.

But corrugated board may also be trimmed in only one direction to maintain the integrity of the flutes. This may limit the ability to produce custom sized or shaped corrugated board. Most corrugator machines run 98 inches wide. Although some manufacturers have corrugator machines running at 110-. Thus, any design requiring a wider blank may require the use of multiple sheets of paperboard. Also, box indentations are more difficult to handle. The indentations are used to determine the location of the fold. This difference may affect the indentation, as the slotline is not necessarily perfectly straight. When the indentation is carried out, the problem that the corrugation is deviated from left to right also occurs, so that the arrangement of the indentation is not accurate. Thus, the maximum indentation difference of 1/8 may exist in the current automatic box filler. This difference may cause inconsistency in the size of the boxes produced. Such tolerance variations may cause the corrugated cardboard in the machine to be too loose or too tight, or even to jam, as it moves through the machine rails.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a corrugated container board apparatus for producing of chute to solve the problem that proposes in the above-mentioned background art.

In order to solve the technical problem, the utility model provides a following technical scheme: a corrugated board production device of a chute comprises a material raw material frame assembly, a feeding roller assembly, an adhesion assembly, a press-fit assembly and a grooved roller assembly, wherein the press-fit assembly is positioned above the grooved roller assembly, the adhesion assembly is contacted with the side surface of the grooved roller assembly, the material raw material frame assembly is positioned below the side of the grooved roller assembly, the feeding roller assembly is positioned between the grooved roller assembly and the material raw material frame assembly, the grooved roller assembly comprises a first grooved roller and a second grooved roller, the first grooved roller is meshed with the second grooved roller, the first grooved roller is positioned under the press-fit assembly, the side surface of the first grooved roller is contacted with the press-fit assembly, the adhesion assembly comprises an adhesion material disc, a first adhesion rotating wheel and a second adhesion rotating wheel, the first adhesion rotating wheel is contacted with the second adhesion rotating wheel, the second adhesion rotating wheel is positioned above the adhesion material disc, and the first adhesion rotating wheel is contacted with the side surface of the first grooved roller. The grooved roller assembly is used for pressing the materials into indentations with different angles, the bonding assembly provides an adhesive for the materials to bond the two materials, and the pressing assembly bonds the two materials under different conditions together under the action of the adhesive. The material is firstly guided by the second grooved roller to enter the grooved roller assembly, an indentation with a specific angle is formed after rolling by the first grooved roller and the second grooved roller, at the moment, the second bonding rotating wheel rotates to drive the bonding agent inside the bonding material disc to rotate and then transmit the bonding agent to the first bonding rotating wheel, then the bonding rotating wheel transmits the bonding agent to the material with the indentation, and at the moment, the material and the other material enter the pressing assembly to press the material and the other material together.

Further, the material raw material frame assembly comprises a first support frame and a second support frame, the first support frame is located below the side of the grooved roll assembly, and the second support frame is located below the side, away from the first support frame, of the grooved roll assembly. The first material is placed above the first support frame, the second material is placed on the second support frame, the placing places of different materials are different, and the achieved effects are different.

Further, the feeding roller assembly comprises a first feeding roller, a second feeding roller, a third feeding roller, a fourth feeding roller, a fifth feeding roller and a sixth feeding roller, wherein the first feeding roller and the second feeding roller are positioned between the grooved roller assembly and the first support frame, the first feeding roller and the second feeding roller are used for adjusting the feeding position of the material, and the third feeding roller, the fourth feeding roller, the fifth feeding roller and the sixth feeding roller are positioned between the press-fit assembly and the second support frame and used for adjusting the feeding position of the material. After the first material is placed on the first support frame, the first material bypasses the first pressing wheel and the second pressing wheel to adjust the entering angle, the first material is fed into the groove roller assembly, after the first material comes out of the groove roller assembly, the first material enters the pressing assembly under the driving of the second groove roller, after the second material is placed on the second support frame, the second material bypasses the third feeding roller, the fourth feeding roller, the fifth feeding roller and the sixth feeding roller, and the second material is convenient to enter the pressing assembly.

Furthermore, the pressing assembly comprises a first pressing wheel, a second pressing wheel and a pressing belt, the pressing belt is sleeved on the first pressing wheel and the second pressing wheel and is in contact with the first grooved roller, and the first grooved roller jacks up the pressing belt on the lower side between the first pressing wheel and the second pressing wheel. The first pressing wheel and the second pressing wheel rotate and the first grooved roller and the second grooved roller rotate, and the first grooved roller jacks up the pressing belt on the lower side between the first pressing wheel and the second pressing wheel, so that the two different materials can rotate simultaneously to complete pressing between the first pressing wheel and the second pressing wheel.

Further, the inside of the adhesive material disk is provided with an adhesive. The adhesive can be glue or other adhesive.

Furthermore, the first grooved roll is provided with a motor for driving, and the second pressing wheel is provided with a motor for driving. The first groove roller is provided with a motor to drive the whole groove roller assembly to rotate for working, and the second press-fit wheel is provided with a motor to drive the whole press-fit assembly to work.

Compared with the prior art, the utility model discloses the beneficial effect who reaches is: firstly, a grooved roller assembly is arranged and comprises a first grooved roller and a second grooved roller and is used for enabling materials to generate specific indentation, secondly, the bonding assembly is arranged and comprises a bonding material disc, a first bonding rotating wheel and a second bonding rotating wheel which are used for conveying glue for the pressed materials, and the feeding roller assembly is arranged again and comprises a first feeding roller, a second feeding roller, a third feeding roller, a fourth feeding roller, a fifth feeding roller and a sixth feeding roller which are used for enabling the materials to enter a device more conveniently, and finally, the press fit assembly is arranged and comprises a first press fit wheel, a second press fit wheel and a press fit belt which are pressed together.

Drawings

The accompanying drawings are included to provide a further understanding of the invention, and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention, and together with the description serve to explain the invention and not to limit the invention. In the drawings:

FIG. 1 is a schematic view showing a structure of a corrugated cardboard producing apparatus with a chute;

FIG. 2 is a schematic structural view of a grooved roll assembly;

FIG. 3 is a schematic structural view of an adhesive assembly;

FIG. 4 is a schematic view of a press-fit assembly;

in the figure: 1-a material feedstock shelf assembly; 2-a feed roller assembly; 3-a bonding component; 4-pressing the assembly; 5-grooved roll assembly; 11-a first support frame; 12-a second support; 21-a first feed roller; 22-a second feed roller; 23-a third feed roller; 24-a fourth feed roller; 25-a fifth feed roller; 26-a sixth feed roller; 31-a disc of bonding material; 32-a first adhesive turning wheel; 33-a second adhesive turning wheel; 41-a first stitching wheel; 42-a second stitching wheel; 43-a laminating tape; 51-a first grooved roll; 52-second grooved roll.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Referring to fig. 1-4, the present invention provides a technical solution:

referring to fig. 1, 2 and 3, a corrugated cardboard producing apparatus for a chute includes a material frame assembly 1, a feeding roller assembly 2, an adhesive assembly 3, a nip assembly 4, and a grooved roller assembly 5, the nip assembly 4 is located above the grooved roller assembly 5, the adhesive assembly 3 is in contact with a side of the grooved roller assembly 5, the material frame assembly 1 is located below the grooved roller assembly 5, the feeding roller assembly 2 is located between the grooved roller assembly 5 and the material frame assembly 1, the grooved roller assembly 5 includes a first grooved roller 51 and a second grooved roller 52, the first grooved roller 51 is engaged with the second grooved roller 52, the first grooved roller 51 is located right below the nip assembly 4, a side surface of the first grooved roller 51 is in contact with the nip assembly 4, the adhesive assembly 3 includes an adhesive material disc 31, a first adhesive rotating wheel 32, a second adhesive rotating wheel 33, the first adhesive rotating wheel 32 is in contact with the second adhesive rotating wheel 33, the second bonding rotating wheel 33 is positioned above the bonding material tray 31, and the first bonding rotating wheel 32 is in contact with the side surface of the first grooved roller 51. The grooved roller assembly 5 is used for pressing the materials into indentations with different angles, the bonding assembly 3 is used for providing adhesives for the materials to bond the two materials, and the pressing assembly 4 is used for bonding the two materials under the action of the adhesives. The material is firstly guided into the grooved roller component 5 by the second grooved roller 52, an indentation with a specific angle is formed after rolling by the first grooved roller 51 and the second grooved roller 52, at the moment, the second bonding rotating wheel 33 rotates to drive the bonding agent in the bonding material disc 31 to rotate and then transmit the bonding agent to the first bonding rotating wheel 32, then the bonding agent is transmitted to the material with the indentation through the first bonding rotating wheel 32, and at the moment, the material and the other material enter the pressing component 4 to press the material and the other material together.

According to fig. 1, the material stock holder assembly 1 comprises a first support frame 11, a second support frame 12, the first support frame 11 being located below the side of the grooved roll assembly 5, the second support frame 12 being located below the side of the grooved roll assembly 5 remote from the first support frame 11. The first material is placed above the first support frame 11, the second material is placed on the second support frame 12, the different material placing places are different, and the achieved effect is also different.

According to fig. 1, the feeding roller assembly 2 comprises a first feeding roller 21, a second feeding roller 22, a third feeding roller 23, a fourth feeding roller 24, a fifth feeding roller 25 and a sixth feeding roller 26, wherein the first feeding roller 21 and the second feeding roller 22 are positioned between the grooved roller assembly 5 and the first support frame 11, the first feeding roller 21 and the second feeding roller 22 are used for adjusting the feeding position of the material, and the third feeding roller 23, the fourth feeding roller 24, the fifth feeding roller 25 and the sixth feeding roller 26 are positioned between the nip assembly 4 and the second support frame 12. After the first material is placed on the first support frame 11, the first material bypasses the first pressing wheel 41 and the second pressing wheel 42 to adjust the entering angle, the first material is sent into the grooved roller assembly 5, after the first material comes out of the grooved roller assembly 5, the first material is driven by the second grooved roller 52 to enter the pressing assembly 4, after the second material is placed on the second support frame 12, the second material bypasses the third feeding roller 23, the fourth feeding roller 24, the fifth feeding roller 25 and the sixth feeding roller 26, and the second material is convenient to enter the pressing assembly 4.

According to fig. 1 and 4, the pressing assembly 4 includes a first pressing wheel 41, a second pressing wheel 42, and a pressing belt 43, the pressing belt 43 is sleeved on the first pressing wheel 41 and the second pressing wheel 42, the pressing belt 43 is in contact with a first grooved roller 51, and the first grooved roller 51 jacks up the pressing belt 43 on the lower side between the first pressing wheel 41 and the second pressing wheel 42. The first stitching wheel 41 and the second stitching wheel 42 rotate, and the first grooved roller 51 and the second grooved roller 52 rotate, because the first grooved roller 51 jacks up the stitching belt 43 at the lower side between the first stitching wheel 41 and the second stitching wheel 42, the two different materials can rotate simultaneously to complete stitching between the two materials.

The adhesive material disk 31 has an adhesive therein. The adhesive can be glue or other adhesive.

The first grooved roll 51 is provided with a motor drive and the second stitching wheel 42 is provided with a motor drive. The first grooved roller 51 is provided with a motor to drive the whole grooved roller assembly 5 to rotate for working, and the second pressing wheel 42 is provided with a motor to drive the whole pressing assembly 4 to work.

The utility model discloses a theory of operation: firstly, after a first material is placed on a first supporting frame 11, the first material is wound around a first pressing wheel 41 and a second pressing wheel 42 to adjust the entering angle, the first material is fed into a grooved roller component 5 and is discharged from the grooved roller component 5, the first material is driven by a second grooved roller 52 to enter a pressing component 4, after a second material is placed on a second supporting frame 12, the second material is wound around a third feeding roller 23, a fourth feeding roller 24, a fifth feeding roller 25 and a sixth feeding roller 26 to facilitate the second material to enter the pressing component 4, the material is firstly guided into the grooved roller component 5 by the second grooved roller 52 and forms an indentation with a specific angle after being rolled by the first grooved roller 51 and the second grooved roller 52, at the moment, the second bonding rotating wheel 33 rotates to drive a bonding agent in a bonding material tray 31 to rotate and then transmit the bonding agent to the first bonding rotating wheel 32, and then the bonding agent is transmitted to the material with the indentation through the first bonding rotating wheel 32, since the first grooved roll 51 lifts up the lower press belt 43 between the first press wheel 41 and the second press wheel 42, the two different materials can be simultaneously rotated to simultaneously press the two materials.

Finally, it should be noted that: although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that modifications may be made to the embodiments described in the foregoing embodiments, or equivalents may be substituted for elements thereof. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (6)

1. The utility model provides a corrugated container board apparatus for producing of chute which characterized in that: the production device of the corrugated board of the chute comprises a material raw material frame assembly (1), a feeding roller assembly (2), an adhesion assembly (3), a pressing assembly (4) and a grooved roller assembly (5), wherein the pressing assembly (4) is positioned above the grooved roller assembly (5), the adhesion assembly (3) is in contact with the side surface of the grooved roller assembly (5), the material raw material frame assembly (1) is positioned below the grooved roller assembly (5), the feeding roller assembly (2) is positioned between the grooved roller assembly (5) and the material raw material frame assembly (1), the grooved roller assembly (5) comprises a first grooved roller (51) and a second grooved roller (52), the first grooved roller (51) is meshed with the second grooved roller (52), the first grooved roller (51) is positioned right below the pressing assembly (4), and the side surface of the first grooved roller (51) is in contact with the pressing assembly (4), bonding subassembly (3) are including bonding material dish (31), first bonding rotation wheel (32), second bonding rotation wheel (33), first bonding rotation wheel (32) and second bonding rotation wheel (33) contact, second bonding rotation wheel (33) are located bonding material dish (31) top, first bonding rotation wheel (32) and first grooved roll (51) side surface contact.

2. A corrugated cardboard production apparatus for a chute as claimed in claim 1 wherein: the material raw material frame assembly (1) comprises a first support frame (11) and a second support frame (12), wherein the first support frame (11) is located below the side of the grooved roll assembly (5), and the second support frame (12) is located below the side, away from the first support frame (11), of the grooved roll assembly (5).

3. A corrugated cardboard production apparatus for a chute as claimed in claim 1 wherein: the feeding roller assembly (2) comprises a first feeding roller (21), a second feeding roller (22), a third feeding roller (23), a fourth feeding roller (24), a fifth feeding roller (25) and a sixth feeding roller (26), wherein the first feeding roller (21) and the second feeding roller (22) are positioned between the grooved roller assembly (5) and the first support frame (11), the first feeding roller (21) and the second feeding roller (22) are used for adjusting the feeding position of the material, and the third feeding roller (23), the fourth feeding roller (24), the fifth feeding roller (25) and the sixth feeding roller (26) are positioned between the pressing assembly (4) and the second support frame (12) and are used for adjusting the feeding position of the material.

4. A corrugated cardboard production apparatus for a chute as claimed in claim 1 wherein: the pressing assembly (4) comprises a first pressing wheel (41), a second pressing wheel (42) and a pressing belt (43), the pressing belt (43) is sleeved on the first pressing wheel (41) and the second pressing wheel (42), the pressing belt (43) is in contact with a first grooved roller (51), and the first grooved roller (51) jacks up the pressing belt (43) on the lower side between the first pressing wheel (41) and the second pressing wheel (42).

5. A corrugated cardboard production apparatus for a chute as claimed in claim 1 wherein: the adhesive material disk (31) has an adhesive therein.

6. A corrugated board producing apparatus for a chute as claimed in claim 4, wherein: the first grooved roller (51) is driven by a motor, and the second pressing wheel (42) is driven by a motor.

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