CN111169102B

CN111169102B - Corrugated board composite output equipment and production line thereof

Info

Publication number: CN111169102B
Application number: CN202010056589.2A
Authority: CN
Inventors: 王慧明
Original assignee: Changxing Sian Minfeng Color Printing Plant
Current assignee: Changxing Sian Minfeng Color Printing Plant
Priority date: 2020-01-18
Filing date: 2020-01-18
Publication date: 2021-05-18
Anticipated expiration: 2040-01-18
Also published as: CN113173442A; CN113173442B; CN111169102A

Abstract

The invention relates to a corrugated board composite output device and a production line thereof, wherein the output device comprises: the output part is used for outputting the corrugated boards and comprises a contact surface, the corrugated boards are directly contacted with the contact surface, and the contact surface drives the compounded corrugated boards to convey; the auxiliary output part is in direct contact with the corrugated board to enable the corrugated board to be attached to the contact surface and is used for shaping the corrugated board in the conveying process in a matching manner with the output part; the corrugated board is output and shaped by the output part and the auxiliary output part, and the shaped corrugated board is curved along the width direction of the corrugated board; the corrugated paper gluing device solves the problems that corrugated paper boards are bent in the length direction under the influence of gravity in the output process, so that the gluing tip of the corrugated paper boards and the gluing part of the surface paper are staggered to be degummed, and the running speed of the corrugated paper gluing device cannot be accelerated under the influence of the degummed.

Description

Corrugated board composite output equipment and production line thereof

Technical Field

The invention relates to the technical field of corrugated board production equipment, in particular to corrugated board composite output equipment and a production line thereof.

Background

In the prior art, the compounded paper board is output backwards in a flat state, because the height difference at the receiving table exists, the front end of the paper board a10a is bent downwards under the influence of gravity in the process of sliding to the receiving table, as shown in the attached drawing of the specification and figure 2, and because the gluing part of the corrugated paper a102 compounded with the surface paper a101 is positioned at the tip end part of the corrugation, the bending condition causes the dislocation of the gluing part between the tip end part of the corrugated paper gluing and the surface paper, so that the glue is distributed to cause the viscosity to be reduced, as shown in the attached drawing of the specification and figure 3, and the degumming condition is generated between the surface paper and the corrugated paper in the subsequent transmission process.

The Chinese patent with publication number CN101041239B discloses a device and a method for automatically replacing a paper cushion plate of a paper cutter, which comprises a supporting platform for stacking cut paper sheets, a conveyor belt for conveying the cut paper sheets to the supporting platform, and an auxiliary supporting platform which can be inserted between a first stack of paper sheets and subsequent paper sheets of a preset number of paper sheets and can be inserted into a paper gap formed by a partition, wherein the surface of the auxiliary supporting platform is a rotary annular belt, the partition is a sheet partition, the sheet partition is horizontally arranged and is connected with a cylinder rod controlled by a computer, a finger-shaped clamping hook is arranged below the auxiliary supporting platform and is connected with a rodless cylinder controlled by the computer, and the device for automatically replacing the paper cushion plate of the paper cutter has the advantages of simple and reasonable structure, low manufacturing cost and simpler and more convenient method for automatically replacing the paper cushion plate of the paper cutter.

However, it has the following problems: the front part of the paper board is bent downwards under the influence of gravity when the paper boards are output and stacked, and the gluing position of the corrugated tip and the gluing position of the surface paper are easily dislocated in the bending process, so that the situation of degumming is caused.

Disclosure of Invention

One of the purposes of the invention is to provide a corrugated board composite output device aiming at the defects of the prior art, wherein the height difference exists between the tail end of the transmission component in the middle of the output part and the tail ends of the transmission components at two sides, so that the composite corrugated board is in an arc shape with a convex or concave middle when being output, the bending strength of the corrugated board in the length direction is enhanced in the process of sliding to the material receiving platform, the corrugated board is not bent downwards at the front end of the falling corrugated board due to the principle similar to an arch bridge, the problem that the corrugated board is bent in the length direction due to the influence of gravity in the output process is solved, the degumming condition is caused by the dislocation of the glue coating part at the tip part of the corrugated board and the tissue bonding part, and the running speed of the device cannot be accelerated due to.

In order to achieve the purpose, the invention provides the following technical scheme:

a corrugated cardboard composite output device comprising:

the output part is used for outputting the corrugated boards and comprises a contact surface, the corrugated boards are directly contacted with the contact surface, and the contact surface drives the compounded corrugated boards to convey;

the auxiliary output part is in direct contact with the corrugated board to enable the corrugated board to be attached to the contact surface and is used for shaping the corrugated board in the conveying process in a matching manner with the output part;

the corrugated board is output and shaped by the output part and the auxiliary output part, and the shaped corrugated board is curved along the width direction of the corrugated board.

Preferably, the output tail end of the output part and the corrugated board sequentially comprise a first contact surface, a second contact surface and a third contact surface along the width direction of the corrugated board, the second contact surface, the first contact surface and the third contact surface have height differences in the vertical direction, the second contact surface, the first contact surface and the third contact surface extend along the width direction of the corrugated board to form an arc-shaped curved surface, and the auxiliary output part is matched with the output part to enable the corrugated board to be output along the arc-shaped curved surface and to be shaped into a curved shape.

Preferably, the auxiliary output part enables the lower surface of the corrugated board to be attached to the arc-shaped curved surface for output in a mode of applying force to the corrugated board in the output process.

Preferably, the output part comprises a plurality of transmission assemblies a located in the middle of the corrugated board in the width direction and a plurality of transmission assemblies b located on two sides of the transmission assemblies a, one ends of the transmission assemblies a and the transmission assemblies b close to the composite part are arranged in parallel, and the output ends a and b of the transmission assemblies a and b are arranged in a high-low mode.

Preferably, the output tail end of the conveying component a is lower than the output tail end of the conveying component b, and the corrugated paper board is output in a concave shape with a concave center.

Preferably, the output part further comprises a support, a first mounting rod and a second mounting rod are fixedly arranged on the support along the width direction of the corrugated board, and the transmission assembly a comprises a supporting arm a arranged on the first mounting rod, a driven roller a rotatably arranged on the supporting arm a, a driving roller rotatably arranged on the support, a transmission belt a arranged on the driven roller a and the driving roller, and a pressing wheel a arranged on the second mounting rod and positioned above the driven roller a.

Preferably, the output end a of the conveying member a is higher than the output end b of the conveying member b in a direction perpendicular to the corrugated cardboard, which is output in a convex arch shape.

Preferably, the output end a of the conveying component a is lower than the output end b of the conveying component b in the direction perpendicular to the corrugated cardboard, and the corrugated cardboard is output in a concave shape with a concave center.

Preferably, the output end b of the transmission assembly b is arranged obliquely, and the side a of the output end b is lower than the side b thereof.

Preferably, the output end b of the transmission assembly b is arranged obliquely, and the side a of the output end b is higher than the side b thereof.

Preferably, the output part further comprises a support, a first mounting rod and a second mounting rod are fixedly arranged on the support along the width direction of the corrugated board, and the conveying assembly a comprises a supporting arm a arranged on the first mounting rod, a driven roller a rotatably arranged on the supporting arm a, a driving roller rotatably arranged on the support and a conveying belt a arranged on the driven roller a and the driving roller.

Preferably, the conveying assembly b comprises a supporting arm b arranged on the first mounting rod, a driven roller b with one end rotatably arranged on the supporting arm b and the other end rotatably arranged on the bracket, and a conveying belt b arranged on the driven roller b and the driving roller.

The driven roller b is arranged obliquely, and one end of the corrugated board close to the driven roller a is higher than the other end of the corrugated board when the corrugated board is output in an arch shape with a convex middle part; corrugated container board becomes middle sunken concave shape output, and its one end that is close to driven voller a is less than its other end, and this kind of setting can be that corrugated container board bending is comparatively gentle, avoids the large-angle to bend and causes the damage to the cardboard.

Preferably, the auxiliary output part comprises a pinch roller a arranged on the second mounting rod and positioned above the driven roller a and a pinch roller b arranged on the second mounting rod and positioned above the driven roller b;

according to the invention, the pressing wheel a and the pressing wheel b are mainly used for applying downward pressure to the corrugated board to enable the corrugated board to be attached to the arc-shaped curved surface for shaping output, the implementation mode is not limited to the above, the corrugated board can be attached to the arc-shaped curved surface by applying suction force to the corrugated board in a mode of punching holes on the conveying belt and setting negative pressure adsorption, and the two modes can be combined to achieve a better effect.

Preferably, the mounting angle of the support arm b on the first mounting rod is adjustable along the circumferential direction of the first mounting rod.

Preferably, the pinch rollers a and the pinch rollers b are respectively mounted on corresponding rotating frames, and the mounting angles of the rotating frames on the second mounting rods are adjustable along the circumferential direction of the second mounting rods.

According to the invention, the support arms b and the angle of each pressing wheel are adjustable, so that the bending degree of the corrugated board during output can be adjusted according to different paper boards and the requirements of actual production conditions, the paper boards are output at the most appropriate bending angle, and the condition of bending degumming is avoided.

Preferably, a receiving table is further disposed on the rear side of the output portion, and a guide plate fixed on the support is disposed between the receiving table and the output portion.

Another object of the present invention is to provide a corrugated cardboard production line aiming at the disadvantages of the prior art.

the utility model provides a corrugated board production line, includes facial tissue location transmission part, corrugated paper location transmission part and compound part, facial tissue location transmission part department accomplish the location the facial tissue and corrugated paper location transmission part department accomplishes the corrugated paper transmission of location to compound part and compounds, still includes the compound output device of corrugated container board, and this compound output device of corrugated container board is used for carrying and moulding the corrugated container board after compounding, and the in-process corrugated container board of carrying becomes the curvilinear figure.

Preferably, the facial tissue location transmission part comprises a facial tissue transmission belt, the corrugated paper location transmission part comprises a corrugated transmission belt, and the composite part comprises a press roller set.

It should be noted that the facial tissue conveyed by the facial tissue positioning and conveying part and the corrugated paper conveyed by the corrugated paper positioning and conveying part are all combined in the combining part by a rolling manner after positioning is completed under the action of the positioning device, and details of the specific structure of the combining part are not described herein as the prior art.

The invention has the beneficial effects that:

as described in the background art, the composite paperboard in the prior art is output backwards in a flat state, because the height difference exists at the receiving table, the front end of the paperboard is bent downwards in the process of sliding to the receiving table under the influence of gravity, and because the gluing part of the corrugated paper compounded with the surface paper is positioned at the corrugated tip part of the corrugated paper, the bending condition causes the dislocation of the gluing part between the corrugated tip part of the glued corrugated paper and the surface paper, so that the glue is distributed to cause the viscosity to be reduced, and the degumming condition is generated between the surface paper and the corrugated paper in the subsequent transmission process, the invention ensures that the composite corrugated board is in a convex or concave arc shape when being output by arranging the height difference between the tail end of the transmission assembly in the middle of the output part and the tail ends of the transmission assemblies at two sides, and the bending strength of the corrugated board in the state in the length direction is enhanced in the process of sliding to the receiving table, the corrugated board has the advantages that the corrugated board is not bent downwards at the falling front end by the principle similar to an arch bridge, and the condition that the gluing tip part of the corrugated board and the facial tissue bonding part are staggered is avoided;

in addition, in the prior art, due to the degumming condition, the running speed of the equipment is limited, the degummed corrugated board is influenced by wind power when running too fast, the situation that the facial tissues are tilted appears, and the waste rate of the paper board is high.

In conclusion, the equipment has the advantages of simple structure, high paperboard production quality, high equipment operation efficiency and the like, and is particularly suitable for the technical field of corrugated paperboard production equipment.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings needed to be used in the description of the embodiments are briefly introduced below, and it is obvious that the drawings described below are only some embodiments of the present invention, and it is obvious for those skilled in the art that other drawings can be obtained according to the drawings without creative efforts.

FIG. 1 is a schematic diagram of the contact surface of a corrugated cardboard sheet with the output end of an output section;

FIG. 2 is a schematic view showing a corrugated cardboard sheet sliding down to a receiving platform and the front end of the corrugated cardboard sheet bending downward in the prior art;

FIG. 3 is a schematic diagram illustrating the prior art process of degumming the face paper and corrugated paper during the corrugated board conveying process;

FIG. 4 is a schematic structural view of a corrugated board production line according to the present invention;

FIG. 5 is a schematic front view of a corrugated board production line;

FIG. 6 is a schematic structural view of an output section;

FIG. 7 is a schematic structural diagram of a transmission assembly a and a transmission assembly b;

FIG. 8 is a schematic structural view of a corrugated cardboard;

FIG. 9 is a schematic diagram of the output state of the corrugated cardboard of the invention when the corrugated cardboard protrudes upwards in the middle;

fig. 10 is a schematic diagram of the output state when the corrugated board of the present invention is depressed in the middle.

Detailed Description

The technical scheme in the embodiment of the invention is clearly and completely explained by combining the attached drawings.

Example one

As shown in fig. 1, 6 to 9, the present embodiment provides a corrugated cardboard composite output apparatus, including:

the output part 4 is used for outputting the corrugated board 30, the output part 4 comprises a contact surface 100, the corrugated board 30 is directly contacted with the contact surface 100, and the contact surface 100 drives the corrugated board 30 after being compounded to convey;

an auxiliary output part 8, wherein the auxiliary output part 8 is in direct contact with the corrugated board 30 to make the corrugated board 30 fit on the contact surface 100, and is used for matching with the output part 4 to shape the corrugated board 30 in the conveying process;

the corrugated cardboard 30 is discharged and shaped through the discharging part 4 and the auxiliary discharging part 8, and the shaped corrugated cardboard 30 is curved in a width direction thereof.

Further, the first contact surface 1001, the second contact surface 1002 and the third contact surface 1003 are sequentially included between the output tail end 401 of the output portion 4 and the corrugated board 30 along the width direction of the corrugated board 30, a height difference exists between the second contact surface 1002 and the first contact surface 1001 and between the second contact surface 1002 and the third contact surface 1003 along the vertical direction, the three extend along the width direction of the corrugated board 30 to form an arc-shaped curved surface 400, and the auxiliary output portion 8 is matched with the output portion 4 to enable the corrugated board 30 to be output along the arc-shaped curved surface 400 and be shaped into a curved shape.

Further, the auxiliary output part 8 applies a force to the corrugated cardboard 30 during the output process to make the lower surface of the corrugated cardboard 30 adhere to the curved surface 400 for output.

Further, the output portion 4 includes a plurality of conveying members a41 located at the middle position in the width direction of the corrugated cardboard 30 and a plurality of conveying members b42 located at both sides of the conveying member a41, the ends of the conveying members a41 and b42 close to the composite portion 3 are arranged in parallel, and the output end a302 of the conveying member a41 and the output end b303 of the conveying member b42 are arranged in a high-low manner.

It is worth mentioning that the height difference exists between the tail end of the transmission assembly in the middle of the output part and the tail ends of the transmission assemblies on the two sides, so that the composite corrugated board is in a convex or concave arc shape when being output, the bending strength of the corrugated board in the length direction is enhanced in the process of sliding to the material receiving table, the corrugated board is enabled not to be bent downwards at the falling front end by the principle similar to an arch bridge, and the condition that the gluing tip end part of the corrugated board is staggered with the facial tissue bonding part is avoided;

in addition, when the corrugated board is output to the material receiving table, the corrugated board is in a bending state along the width direction, the strength of the corrugated board in the length direction is increased, the bending of the corrugated board in the length direction is avoided, the bending of the corrugated board in the width direction cannot influence the dislocation of a gluing point of the corrugated board, the bending of the corrugated board in the width direction only enables the surface paper to slightly slide along the length direction of the gluing position of the corrugated tip, and the situation that the glue is disfigured and the glue is degummed due to the fact that the glue is distributed and reduced in viscosity is avoided.

Further, the output end a302 of the conveying member a41 is higher than the output end b303 of the conveying member b42 in the direction perpendicular to the corrugated cardboard 30, and the corrugated cardboard 30 is output in a convex arch shape.

Further, the output end b303 of the transmission component b42 is arranged obliquely, and the a side 3031 of the output end b303 is lower than the b side 3032 thereof.

Further, the output section 4 further includes a support 43, a first mounting rod 44 and a second mounting rod 45 are fixedly arranged on the support 43 along the conveying width direction of the corrugated cardboard 30, and the conveying assembly a41 includes a supporting arm a411 arranged on the first mounting rod 44, a driven roller a412 rotatably arranged on the supporting arm a411, a driving roller 413 rotatably arranged on the support 43, and a conveying belt a414 arranged on the driven roller 412 and the driving roller 413.

Further, the conveying member b42 includes a support arm b421 provided on the first mounting lever 44, a driven roller b422 having one end rotatably provided on the support arm b421 and the other end rotatably provided on the bracket 43, and a conveying belt b423 provided on the driven roller b422 and the driving roller 413.

Further, the auxiliary output portion 8 includes a pinch roller a415 disposed on the second mounting lever 45 above the driven roller a412 and a pinch roller b424 disposed on the second mounting lever 45 above the driven roller b 422.

Further, a material receiving table 6 is arranged on the rear side of the output part 4, and a guide plate 7 fixed on a bracket 43 is arranged between the material receiving table 6 and the output part 4.

Further, still include facial tissue location transmission part 1, corrugated paper location transmission part 2 and compound part 3, facial tissue 10 that facial tissue location transmission part 1 department accomplished the location and corrugated paper 20 that corrugated paper location transmission part 2 department accomplished the location transmit to compound part 3 and compound, export through output section 4 after compound corrugated container board 30 that forms.

Further, the facial tissue positioning and conveying part 1 comprises a facial tissue conveying belt 11, the corrugated paper positioning and conveying part 2 comprises a corrugated conveying belt 21, and the composite part 3 comprises a press roller set 31.

Example two

As shown in fig. 7, in which the same or corresponding components as those in the first embodiment are denoted by the same reference numerals as those in the first embodiment, only the points of difference from the first embodiment will be described below for the sake of convenience. The second embodiment is different from the first embodiment in that: further, the mounting angle of the support arm b421 on the first mounting rod 44 is adjustable along the circumferential direction of the first mounting rod 44.

Further, the pressing wheels a415 and b424 are respectively mounted on the corresponding rotating frame 5, and the mounting angle of the rotating frame 5 on the second mounting rod 45 is adjustable along the circumferential direction of the second mounting rod 45.

The angle through setting up support arm b and each pinch roller is adjustable in this embodiment for crooked degree when can adjusting corrugated container board output according to the cardboard of difference and the requirement of actual production condition carries out cardboard output with the most suitable bending angle, avoids the condition that the bending was come unstuck.

EXAMPLE III

As shown in fig. 10, in which the same or corresponding components as those in embodiment two are denoted by the same reference numerals as those in embodiment two, only the points of difference from embodiment two will be described below for the sake of convenience. The third embodiment is different from the second embodiment in that: the output end a302 of the conveying component a41 is lower than the output end b303 of the conveying component b42 in the direction perpendicular to the corrugated cardboard 30, the corrugated cardboard 30 is output in a concave shape concave downwards in the middle, the output end b303 of the conveying component b42 is obliquely arranged, and the a side 3031 of the output end b303 is higher than the b side 3032 thereof.

Example four

As shown in fig. 4 and 5, a corrugated board production line comprises a facial tissue positioning and conveying part 1, a corrugated paper positioning and conveying part 2 and a composite part 3, wherein facial tissues 10 positioned at the facial tissue positioning and conveying part 1 and corrugated papers 20 positioned at the corrugated paper positioning and conveying part 2 are conveyed to the composite part 3 for composite, the corrugated board production line further comprises a corrugated board composite output device, the corrugated board composite output device is used for conveying and shaping corrugated boards 30 after composite, and the corrugated boards are in a curve shape in the conveying process.

Further, the facial tissue location transmission part includes the facial tissue transmission band, the corrugated paper location transmission part includes the flute transmission band, compound part includes compression roller set.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any changes or substitutions that can be easily conceived by those skilled in the art within the technical scope of the present invention are included in the scope of the present invention. Therefore, the protection scope of the present invention shall be subject to the protection scope of the claims.

Claims

1. A compound output device of corrugated cardboard, characterized in that: the method comprises the following steps:

the corrugated board conveying device comprises an output part (4) and a conveying part, wherein the output part (4) is used for outputting a corrugated board (30), the output part (4) comprises a contact surface (100), the corrugated board (30) is directly contacted with the contact surface (100), and the contact surface (100) drives the corrugated board (30) after compounding to convey;

the auxiliary output part (8) is in direct contact with the corrugated board (30) to enable the corrugated board (30) to be attached to the contact surface (100), and is used for shaping the corrugated board (30) in the conveying process in cooperation with the output part (4);

the corrugated board (30) is output and shaped through the output part (4) and the auxiliary output part (8), and the shaped corrugated board (30) is curved along the width direction;

the output part (4) comprises a plurality of transmission components a (41) positioned at the middle position of the corrugated board (30) in the transmission width direction and a plurality of transmission components b (42) positioned at two sides of the transmission components a (41), one ends of the transmission components a (41) and the transmission components b (42) close to the composite part (3) are arranged in parallel, and the output end a (302) of the transmission components a (41) and the output end b (303) of the transmission components b (42) are arranged in a high-low mode;

the output end b (303) of the transmission component b (42) is arranged obliquely;

the output part (4) further comprises a support (43), a first mounting rod (44) and a second mounting rod (45) are fixedly arranged on the support (43) along the transmission width direction of the corrugated board (30), and the transmission assembly a (41) comprises a supporting arm a (411) arranged on the first mounting rod (44), a driven roller a (412) rotatably arranged on the supporting arm a (411), a driving roller (413) rotatably arranged on the support (43) and a transmission belt a (414) arranged on the driven roller a (412) and the driving roller (413);

the transmission assembly b (42) comprises a supporting arm b (421) arranged on the first mounting rod (44), a driven roller b (422) with one end rotatably arranged on the supporting arm b (421) and the other end rotatably arranged on the bracket (43), and a transmission belt b (423) arranged on the driven roller b (422) and the driving roller (413).

2. A corrugated cardboard composite output device as claimed in claim 1 wherein: the corrugated board is characterized in that a first contact surface (1001), a second contact surface (1002) and a third contact surface (1003) are sequentially arranged between the output tail end (401) of the output part (4) and the corrugated board (30) along the width direction of the corrugated board (30), a height difference exists between the second contact surface (1002) and the first contact surface (1001) and between the second contact surface (1002) and the third contact surface (1003) in the vertical direction, the three parts extend along the width direction of the corrugated board (30) to form an arc-shaped curved surface (400), and the auxiliary output part (8) is matched with the output part (4) to enable the corrugated board (30) to be output along the arc-shaped curved surface (400) and be shaped into a curved shape.

3. A corrugated cardboard composite output device as claimed in claim 1 wherein: the auxiliary output part (8) enables the lower surface of the corrugated board (30) to be attached to the arc-shaped curved surface (400) to output in a mode of applying acting force to the corrugated board (30) in the output process.

4. A corrugated cardboard composite output device as claimed in claim 1 wherein: the output end a (302) of the conveying component a (41) is higher than the output end b (303) of the conveying component b (42) in the direction perpendicular to the corrugated cardboard (30), and the corrugated cardboard (30) is output in a convex arch shape.

5. A corrugated cardboard composite output device as claimed in claim 1 wherein: the output end a (302) of the transmission component a (41) is lower than the output end b (303) of the transmission component b (42) in the direction vertical to the corrugated paper board (30), and the corrugated paper board (30) is output in a concave shape with a concave middle.

6. A corrugated cardboard composite output device as claimed in claim 4 wherein: the a-side (3031) of the output b (303) is lower than the b-side (3032) thereof.

7. A corrugated cardboard composite output device as claimed in claim 5 wherein: the output terminal b (303) has a side a (3031) higher than a side b (3032).

8. A corrugated cardboard composite output device as claimed in claim 1 wherein: the auxiliary output portion (8) includes a pinch roller a (415) disposed on the second mounting lever (45) above the driven roller a (412) and a pinch roller b (424) disposed on the second mounting lever (45) above the driven roller b (422).

9. A corrugated cardboard composite output device as claimed in claim 1 wherein: the installation angle of the supporting arm b (421) on the first installation rod (44) is adjustable along the circumferential direction of the first installation rod (44).

10. A corrugated cardboard composite output device as claimed in claim 8 wherein: the pinch rollers a (415) and the pinch rollers b (424) are respectively installed on corresponding rotating frames (5), and the installation angle of the rotating frames (5) on the second installation rod (45) is adjustable along the circumferential direction of the second installation rod (45).

11. A corrugated cardboard composite output device as claimed in claim 1 wherein: the rear side of the output part (4) is also provided with a material receiving platform (6), and a guide plate (7) fixed on a support (43) is arranged between the material receiving platform (6) and the output part (4).

12. The utility model provides a corrugated board production line, includes facial tissue location transmission part (1), corrugated paper location transmission part (2) and compound portion (3), facial tissue (10) that facial tissue location transmission part (1) was located to accomplish the location and corrugated paper (20) that corrugated paper location transmission part (2) was located to accomplish the location transmit to compound portion (3) and compound its characterized in that: a corrugated cardboard composite output device as claimed in any of claims 1 to 11, which is used for conveying and shaping the corrugated cardboard (30) after the composite, wherein the corrugated cardboard is curved during the conveying process.