CN107364188B - Continuous production system of high-strength vertical corrugated board - Google Patents

Abstract

The invention discloses a continuous production system of a high-strength vertical corrugated board, which comprises an integral frame, and a middle corrugated forming unit, an indentation forming unit, a vertical stacking unit, a transition transportation unit and an external paper pasting unit which are sequentially arranged between the side walls of the integral frame along the direction of a production line, wherein the indentation forming unit comprises an indentation mechanism, the vertical stacking unit is rotatably arranged between the side walls of the integral frame, the vertical stacking unit comprises a stacking section conveying mechanism, and a blocking cylinder for blocking corrugated paper after indentation is arranged at the end part of the stacking section conveying mechanism, which is close to the transition transportation unit; the transition transportation unit comprises a transition section conveying mechanism, and the outer paper pasting unit comprises an upper paper feeding mechanism, a lower paper feeding mechanism and an outer paper pasting section conveying mechanism. The continuous production system of the high-strength vertical corrugated board provided by the invention has reasonable structural arrangement and coherent production process, and greatly improves the production efficiency of the vertical corrugated board.

Description

Continuous production system of high-strength vertical corrugated board

Technical Field

The invention belongs to the technical field of corrugated board equipment, and particularly relates to a continuous production system of high-strength vertical corrugated boards.

Background

The paper packaging industry is a processing and manufacturing service industry, is an industry for supporting the packaging and service of products of vast users, and any product cannot be separated from transportation and sales packaging. The corrugated board has the advantages of no pollution, reproducibility, good buffering performance and the like, and is widely applied to packaging. The corrugated board is mainly used for manufacturing packaging materials, is not a single layer of board, but is formed by bonding boards with different functions, the most core part is the board with the shape of a flute, namely the core paper, and the flat common board is the face paper outside the core paper, namely the face paper, and the corrugated board is formed by combining the face paper and the core paper. The number of layers of the corrugated board refers to the number of layers of base paper constituting the corrugated board, and four classifications are generally adopted: double-layer corrugated board, three-layer corrugated board, five-layer corrugated board and seven-layer corrugated board.

The vertical corrugated board is formed by sticking vertical corrugated paper between the upper paper unit and the lower paper unit, and the stress strength of the vertical corrugated board is far higher than that of a common multi-layer corrugated board. However, the vertical corrugated paper in the existing vertical corrugated paper board production line is independently produced, cut into the required size and then stuck with the upper paper unit and the lower paper unit, so that the production efficiency is low.

For the above reasons, it is necessary to design a continuous production system of high-strength vertical corrugated board specifically for the vertical corrugated board, so as to form a continuous production process of the vertical corrugated board, and improve the working efficiency.

Disclosure of Invention

Aiming at the defects existing in the prior art, the invention aims to provide a continuous production system of a high-strength vertical corrugated board, which forms a continuous production process of the vertical corrugated board and improves the working efficiency.

In order to achieve the above purpose, the present invention provides the following technical solutions:

a continuous production system of high-strength vertical corrugated boards comprises an integral frame, and a middle corrugated forming unit, an indentation forming unit, a vertical stacking unit, a transition conveying unit and an outer paper pasting unit which are sequentially arranged between the side walls of the integral frame along the direction of a production line;

the middle corrugated forming unit is sequentially provided with a corrugated paper feeding support, a first paper guiding roller, a second paper guiding roller, a heating roller, an upper corrugated roller, a lower corrugated roller, a gluing component, a pressure roller, a third paper guiding roller, a fourth paper guiding roller and a raw paper feeding support along the production direction, wherein the first paper guiding roller, the second paper guiding roller, the heating roller, the upper corrugated roller, the lower corrugated roller, the pressure roller, the third paper guiding roller and the fourth paper guiding roller are all arranged between the side walls of the integral frame, the lower corrugated roller is arranged between the side walls of the integral frame and is close to the right lower outer edge of the upper corrugated roller, the pressure roller is close to the lower corrugated roller, and the gluing component is close to the left lower part of the lower corrugated roller;

the indentation forming unit comprises an indentation section conveying mechanism, and an indentation mechanism is arranged in the middle of the indentation section conveying mechanism;

the indentation forming unit further comprises indentation wetting mechanisms and indentation drying mechanisms which are positioned on the front side and the rear side of the indentation mechanism along the direction of the production line, wherein the indentation wetting mechanisms comprise a plurality of groups of wetting spray heads, a spray head connecting plate is arranged on the indentation section conveying mechanism, and the plurality of groups of wetting spray heads are distributed on the bottom edge of the spray head connecting plate and are opposite to the indentation section conveying mechanism;

the indentation drying mechanism comprises an indentation baking tray, a baking tray connecting plate is arranged on the indentation section conveying mechanism, and the indentation baking tray is arranged at the bottom edge of the spray head connecting plate and is opposite to the indentation section conveying mechanism;

the indentation mechanism comprises a lifting cylinder, a compression roller bracket, a compression roller motor and a compression roller,

the lifting cylinder is fixed right above the indentation section conveying mechanism through a connecting plate, the press roller support is connected to the bottom end of a cylinder rod of the lifting cylinder, the press roller is movably arranged on the press roller support, the press roller motor is arranged on the outer side wall of the press roller support and is connected to the press roller through a coupling, and press cutters are distributed on the circumferential side wall of the press roller;

a water spray head used for wetting corrugated paper to be formed and a baking assembly used for wetting and drying are further arranged between the side walls of the integral frame, the water spray head is positioned above the position between the first paper guide roller and the second paper guide roller, the baking assembly is positioned above the position between the heating roller and the upper corrugated roller, the baking assembly comprises a lamp tube fixing plate and more than one heating lamp tube, and the lamp tube fixing plate is fixed between the side walls of the integral frame;

the vertical stacking unit is rotatably arranged between the side walls of the integral frame, when the vertical stacking unit is in an inclined state, the top end of the vertical stacking unit is connected to the end part of the indentation moving support, when the vertical stacking unit is in a horizontal state, the other end of the vertical stacking unit is connected to the end part of the transition transportation unit, the vertical stacking unit comprises a stacking section conveying mechanism, and a blocking cylinder for blocking corrugated paper after indentation is arranged at the end part of the stacking section conveying mechanism, which is close to the transition transportation unit;

the transition transportation unit comprises a transition section conveying mechanism, the outer paper pasting unit comprises an upper paper feeding mechanism, a lower paper feeding mechanism and an outer paper pasting section conveying mechanism, the outer paper pasting section conveying mechanism is located right below the transition section conveying mechanism, the joint of the outer paper pasting section conveying mechanism and the transition section conveying mechanism is partially overlapped, and the upper paper feeding mechanism and the lower paper feeding mechanism are located right above and right below the transition section conveying mechanism respectively.

As a further improvement of the scheme, the indentation section conveying mechanism and the stacking section conveyor

The mechanism, the transition section conveying mechanism and the outer paper pasting section conveying mechanism all comprise conveying brackets and moving rollers distributed among the conveying brackets.

As a further improvement of the scheme, an indentation section paper feeding moving roller is arranged on the top wall of the end part of the transportation bracket of the indentation section transportation mechanism, which is close to the middle corrugated forming unit.

As a further improvement of the scheme, upper paper feeding moving rollers and lower paper feeding moving rollers are arranged on the top edges of two side walls of a conveying support of the outer paper pasting section conveying mechanism, wherein the lower paper feeding moving rollers are located under the transition section conveying mechanism.

As the further improvement of this scheme, middle flute forming unit has set gradually corrugated paper feed support, first guide roll, second guide roll, heating roller, last flute roller, lower flute roller, rubber coating subassembly, pressure roller, third guide roll, fourth guide roll and the body paper feed support along the production direction, first guide roll, second guide roll, heating roller, go up flute roller, lower flute roller, pressure roller, third guide roll and fourth guide roll all set up between the lateral wall of whole frame, lower flute roller sets up between the lateral wall of whole frame and immediately the lower outside of right of going up the flute roller, the pressure roller is next to lower flute roller, the rubber coating subassembly is next to lower flute roller's left lower part.

As a further improvement of the scheme, a water spray head used for wetting corrugated paper to be formed and a baking assembly used for wetting and drying are further arranged between the side walls of the integral frame, the water spray head is located above the position between the first paper guide roller and the second paper guide roller, the baking assembly is located above the position between the heating roller and the upper corrugated roller, the baking assembly comprises a lamp tube fixing plate and more than one heating lamp tube, and the lamp tube fixing plate is fixed between the side walls of the integral frame.

As a further improvement of the scheme, the indentation mechanism comprises a lifting cylinder, a compression roller support, a compression roller motor and a compression roller, wherein the lifting cylinder is fixed on the indentation section conveyor through a connecting plate

The structure is directly over, compression roller support connects in the bottom of the cylinder pole of lift cylinder, compression roller activity sets up on the compression roller support, compression roller motor installs on the lateral wall of compression roller support and passes through the coupling joint in the compression roller, distributes on the circumference lateral wall of compression roller and has the compression knife.

As a further improvement of the scheme, the indentation forming unit further comprises indentation wetting mechanisms and indentation drying mechanisms which are positioned on the front side and the rear side of the indentation mechanism along the direction of the production line, wherein the indentation wetting mechanisms comprise a plurality of groups of wetting spray heads, a spray head connecting plate is arranged on the indentation section conveying mechanism, and the plurality of groups of wetting spray heads are distributed on the bottom edge of the spray head connecting plate and are opposite to the indentation section conveying mechanism;

the indentation drying mechanism comprises an indentation baking tray, wherein a baking tray connecting plate is arranged on the indentation section conveying mechanism, and the indentation baking tray is arranged at the bottom edge of the spray head connecting plate and is opposite to the indentation section conveying mechanism.

By adopting the technical scheme, the indentation baking tray is arranged to dry the moisture after indentation, so that the shaping of the indentation is realized, and meanwhile, the damage of the moisture to corrugated paper is prevented.

As the further improvement of this scheme, go up paper feed mechanism and lower paper feed mechanism all including face paper support, face paper transition roller and rubber coating subassembly set up between whole frame lateral wall, and the lower outside of right of rubber coating subassembly next face paper transition roller.

As a further improvement of this scheme, the rubber coating subassembly includes glue spreader, rubber coating dish and two sets of viscose spare, and every viscose spare of group includes a plurality of zonulae occludens's viscose roller, the one end of viscose spare is next to the glue spreader, and the other end of viscose spare is located the inside of rubber coating dish.

By adopting the technical scheme, the two groups of adhesive pieces are adopted, so that the uniformity and the efficiency of adhesive coating are improved. Compared with the prior art, the invention has the advantages that:

the continuous production system of the high-strength vertical corrugated board provided by the invention has reasonable structural arrangement and high production line working efficiency; the corrugated paper is pressed by arranging an indentation forming unit

The mark is segmented, the corrugated paper of the vertical mark segmentation is collected through the vertical stacking unit, the integral forming of the vertical corrugated board is carried out through the outer paper pasting unit, the production process is continuous, and the production efficiency of the vertical corrugated board is greatly improved.

Drawings

For the purpose of making the objects, technical solutions and advantages of the present invention more apparent, the present invention will be described in further detail with reference to the accompanying drawings, in which:

FIG. 1 is a schematic diagram of the overall structure of an embodiment of the invention;

FIG. 2 is a schematic view of a partial three-dimensional structure in an embodiment of the invention;

FIG. 3 is a schematic view of a stamping unit and a vertical stacking unit according to an embodiment of the present invention;

FIG. 4 is a schematic cross-sectional view of a molding unit according to an embodiment of the present invention;

FIG. 5 is a schematic view of a part of the structure of a middle corrugating unit according to an embodiment of the invention;

FIG. 6 is a schematic diagram of an upper paper feeding mechanism in an embodiment of the invention.

Reference numerals illustrate: a. an indentation wetting mechanism; b. an indentation mechanism; c. an indentation drying mechanism; d. a gluing component; 1. a middle corrugating unit; 2. an indentation molding unit; 3. a vertical stacking unit; 4. a transitional transportation unit; 5. an outer paper sticking unit; 101. a corrugated paper feeding bracket; 102. a first paper guide roller; 103. a second paper guide roller; 104. a heating roller; 105. a pressure roller; 106. a third paper guide roller; 107. a fourth paper guide roller; 108. a raw paper feeding bracket; 109. A water spray head; 110. a baking assembly; 111. a corrugating roller is arranged; 112. a lower corrugating roll; 201. a lifting cylinder; 202. a press roll bracket; 203. a press roller motor; 204. a press roller; 205. a pressing knife; 206. An indentation section paper feeding motion roller; 301. blocking the cylinder; 401. a transition section conveying mechanism;

501. an upper paper feeding mechanism; 502. a lower paper feeding mechanism; 503. an outer paper pasting section conveying mechanism;

504. an upper paper feeding moving roller; 505. a lower paper feeding moving roller; 506. a facial tissue feeding bracket; 507.

a facial tissue transition roller; 601. a glue spreading roller; 602. a glue spreading plate; 603. and (5) an adhesive piece.

Detailed Description

The foregoing description is only an overview of the present invention, and is intended to provide a better understanding of the present invention, as it is embodied in the following description, with reference to the preferred embodiments of the present invention and the accompanying drawings.

Embodiment one:

referring to fig. 1 to 6, a continuous production system of high-strength vertical corrugated board includes an integral frame, and a middle corrugated forming unit 1, an indentation forming unit 2, a vertical stacking unit 3, a transition transport unit 4, and an outer paper pasting unit 5 sequentially disposed between side walls of the integral frame along a production line direction;

the indentation forming unit 2 comprises an indentation section conveying mechanism, and an indentation mechanism b is arranged in the middle of the indentation section conveying mechanism;

the vertical stacking units 3 are rotatably arranged between the side walls of the integral frame when being erected

When the stacking unit 3 is in an inclined state, the top end of the vertical stacking unit 3 is connected with the indentation motion

A bracket end, when the vertical stacking unit 3 is in a horizontal state, the vertical stacking unit 3 is another

The end is connected with the end of the transition transport unit 4, and the vertical stacking unit 3 comprises a stacking section conveying device

A blocking cylinder 301 for blocking corrugated paper after indentation is arranged at the end part of the stacking section conveying mechanism, which is close to the transition conveying unit 4;

the transition transportation unit 4 comprises a transition section transportation mechanism 401, the outer paper pasting unit 5 comprises an upper paper feeding mechanism 501, a lower paper feeding mechanism 502 and an outer paper pasting section transportation mechanism 503, the outer paper pasting section transportation mechanism 503 is positioned under the transition section transportation mechanism 401, and the outer paper is pasted

The junction of the paste section transport mechanism 503 and the transition section transport mechanism 401 partially overlaps, the

The upper paper feeding mechanism 501 and the lower paper feeding mechanism 502 are located directly above and directly below the transition section conveying mechanism 401, respectively.

Embodiment two:

the present embodiment is modified based on the first embodiment.

Referring to fig. 1 to 6, a continuous production system of high-strength vertical corrugated board includes an integral frame, and a middle corrugated forming unit 1, an indentation forming unit 2, a vertical stacking unit 3, a transition transport unit 4, and an outer paper pasting unit 5 sequentially disposed between side walls of the integral frame along a production line direction;

the indentation forming unit 2 comprises an indentation section conveying mechanism, and an indentation mechanism b is arranged in the middle of the indentation section conveying mechanism;

the vertical stacking units 3 are rotatably arranged between the side walls of the integral frame when being erected

When the stacking unit 3 is in an inclined state, the top end of the vertical stacking unit 3 is connected with the indentation motion

A bracket end, when the vertical stacking unit 3 is in a horizontal state, the vertical stacking unit 3 is another

The end is connected with the end of the transition transport unit 4, and the vertical stacking unit 3 comprises a stacking section conveying device

A blocking cylinder 301 for blocking corrugated paper after indentation is arranged at the end part of the stacking section conveying mechanism, which is close to the transition conveying unit 4;

the transition transportation unit 4 comprises a transition section transportation mechanism 401, the outer paper pasting unit 5 comprises an upper paper feeding mechanism 501, a lower paper feeding mechanism 502 and an outer paper pasting section transportation mechanism 503, the outer paper pasting section transportation mechanism 503 is positioned under the transition section transportation mechanism 401, and the outer paper is pasted

The junction of the paste section transport mechanism 503 and the transition section transport mechanism 401 partially overlaps, the

The upper paper feeding mechanism 501 and the lower paper feeding mechanism 502 are located directly above and directly below the transition section conveying mechanism 401, respectively.

In the preferred embodiment, the indentation section conveying mechanism, the stacking section conveying mechanism, the transition section conveying mechanism 401 and the outer paper pasting section conveying mechanism 503 all comprise conveying brackets and moving rollers distributed among the conveying brackets.

In the present preferred embodiment, an indentation paper feed moving roller 206 is provided on the top wall of the end portion of the transport bracket of the indentation conveying mechanism near the intermediate corrugating unit 1.

In the preferred embodiment, upper paper feeding moving rollers 504 and lower paper feeding moving rollers 505 are provided on the top edges of both side walls of the transport frame of the outer paper pasting section transport mechanism 503, wherein the lower paper feeding moving rollers 505 are located directly under the transition section transport mechanism 401.

In the preferred embodiment, the middle corrugating unit 1 is provided with a corrugated paper feeding support 101, a first corrugated paper guiding roller 102, a second corrugated paper guiding roller 103, a heating roller 104, an upper corrugated roller 111, a lower corrugated roller 112, a gluing component d, a pressure roller 105, a third corrugated paper guiding roller 106, a fourth corrugated paper guiding roller 107 and a raw paper feeding support 108 in sequence along the production direction, wherein the first corrugated paper guiding roller 102, the second corrugated paper guiding roller 103, the heating roller 104, the upper corrugated roller 111, the lower corrugated roller 112, the pressure roller 105, the third corrugated paper guiding roller 106 and the fourth corrugated paper guiding roller 107 are all arranged on a whole frame

Between the side walls, the lower corrugating roller 112 is disposed between the side walls of the overall frame and next to the upper tile

The pressure roller 105 is adjacent to the lower corrugating roller 112, and the glue assembly d is adjacent to the lower left of the lower corrugating roller 112.

In the preferred embodiment, a water spray head 109 for wetting corrugated paper to be formed and a baking assembly 110 for wetting and baking are also arranged between the side walls of the integral frame, the water spray head 109 is positioned above the position between the first paper guide roller 102 and the second paper guide roller 103, the water spray head

The baking assembly 110 is positioned above the portion between the heating roller 104 and the upper corrugating roller 111

The baking assembly 110 comprises a lamp fixing plate and one or more heating lamps, wherein the lamps are fixed

The plates are secured between the sidewalls of the unitary frame.

In the preferred embodiment, the indentation mechanism b comprises a lifting cylinder 201, a pressing roller support 202, a pressing roller motor 203 and a pressing roller 204, wherein the lifting cylinder 201 is fixed right above the indentation section conveying mechanism through a connecting plate, and the pressing roller support 202 is connected with the lifting cylinder

201. The press roller 204 is movably arranged on the press roller bracket 202 at the bottom end of the cylinder rod

The press roller motor 203 is installed on the outer side wall of the press roller bracket 202 and is connected to the press roller 204 through a coupling, and press cutters 205 are distributed on the circumferential side wall of the press roller 204.

In the preferred embodiment, the indentation forming unit 2 further comprises an indentation wetting mechanism a and an indentation drying mechanism c which are positioned at the front side and the rear side of the indentation mechanism b along the direction of the production line, wherein the indentation wetting mechanism a comprises a plurality of groups of wetting spray heads, a spray head connecting plate is arranged on the indentation section conveying mechanism, and the plurality of groups of wetting spray heads are distributed at the bottom edge of the spray head connecting plate and are opposite to the indentation section conveying mechanism;

the indentation drying mechanism c comprises an indentation baking tray, wherein a baking tray connecting plate is arranged on the indentation section conveying mechanism, and the indentation baking tray is arranged at the bottom edge of the spray head connecting plate and is opposite to the indentation section conveying mechanism.

By adopting the technical scheme, the indentation baking tray is arranged to dry the moisture after indentation, so that the shaping of the indentation is realized, and meanwhile, the damage of the moisture to corrugated paper is prevented.

In the preferred embodiment, the upper paper feeding mechanism 501 and the lower paper feeding mechanism 502 each include a paper feeding frame 506, a paper transition roller 507 and a gluing component d, wherein the paper transition roller 507 and the gluing component d are disposed between the sidewalls of the integral frame, and the gluing component d is adjacent to the lower right outer edge of the paper transition roller 507.

In the preferred embodiment, the applicator assembly d includes an applicator roller 601, an applicator plate 602

And two sets of adhesive pieces 603, each set of adhesive pieces 603 comprising a plurality of closely connected adhesive rolls, one end of each adhesive piece 603 being adjacent to the adhesive roll 601, the other end of each adhesive piece 603 being located at the position of the coating

The inside of the glue tray 602.

By adopting the technical scheme, the uniformity and the efficiency of gluing are improved by adopting the two groups of glue pieces 603.

The continuous production system of the high-strength vertical corrugated board provided by the invention has reasonable structural arrangement and high production line working efficiency; corrugated paper to be formed is subjected to the provision of the indentation forming unit 2

Indentation segmentation, collecting corrugated paper of the vertical indentation segmentation through a vertical stacking unit 3, and then communicating

The vertical corrugated board is integrally molded by the outer paper pasting unit 5, the production process is continuous, and the production efficiency of the vertical corrugated board is greatly improved.

The above description is only a preferred embodiment of the present invention, and the protection scope of the present invention is not limited to the above examples, and all technical solutions belonging to the concept of the present invention belong to the protection scope of the present invention. It should be noted that modifications and adaptations to the present invention may occur to one skilled in the art without departing from the principles of the present invention and are intended to be within the scope of the present invention.

Claims (6)

1. A continuous production system of high-strength vertical corrugated board is characterized in that: the device comprises an integral frame, a middle corrugated forming unit, an indentation forming unit, a vertical stacking unit, a transition transportation unit and an outer paper pasting unit which are sequentially arranged between the side walls of the integral frame along the direction of a production line;

the middle corrugated forming unit is sequentially provided with a corrugated paper feeding support, a first paper guiding roller, a second paper guiding roller, a heating roller, an upper corrugated roller, a lower corrugated roller, a gluing component, a pressure roller, a third paper guiding roller, a fourth paper guiding roller and a raw paper feeding support along the production direction, wherein the first paper guiding roller, the second paper guiding roller, the heating roller, the upper corrugated roller, the lower corrugated roller, the pressure roller, the third paper guiding roller and the fourth paper guiding roller are all arranged between the side walls of the integral frame, the lower corrugated roller is arranged between the side walls of the integral frame and is close to the right lower outer edge of the upper corrugated roller, the pressure roller is close to the lower corrugated roller, and the gluing component is close to the left lower part of the lower corrugated roller;

the indentation forming unit comprises an indentation section conveying mechanism, and an indentation mechanism is arranged in the middle of the indentation section conveying mechanism;

the indentation forming unit further comprises indentation wetting mechanisms and indentation drying mechanisms which are positioned on the front side and the rear side of the indentation mechanism along the direction of the production line, wherein the indentation wetting mechanisms comprise a plurality of groups of wetting spray heads, a spray head connecting plate is arranged on the indentation section conveying mechanism, and the plurality of groups of wetting spray heads are distributed on the bottom edge of the spray head connecting plate and are opposite to the indentation section conveying mechanism;

the indentation drying mechanism comprises an indentation baking tray, a baking tray connecting plate is arranged on the indentation section conveying mechanism, and the indentation baking tray is arranged at the bottom edge of the spray head connecting plate and is opposite to the indentation section conveying mechanism;

the indentation mechanism comprises a lifting cylinder, a compression roller support, a compression roller motor and a compression roller, wherein the lifting cylinder is fixed right above the indentation section conveying mechanism through a connecting plate, the compression roller support is connected to the bottom end of a cylinder rod of the lifting cylinder, the compression roller is movably arranged on the compression roller support, the compression roller motor is arranged on the outer side wall of the compression roller support and is connected to the compression roller through a coupling, and compression knives are distributed on the circumferential side wall of the compression roller;

a water spray head used for wetting corrugated paper to be formed and a baking assembly used for wetting and drying are further arranged between the side walls of the integral frame, the water spray head is positioned above the position between the first paper guide roller and the second paper guide roller, the baking assembly is positioned above the position between the heating roller and the upper corrugated roller, the baking assembly comprises a lamp tube fixing plate and more than one heating lamp tube, and the lamp tube fixing plate is fixed between the side walls of the integral frame;

the vertical stacking unit is rotatably arranged between the side walls of the integral frame, when the vertical stacking unit is in an inclined state, the top end of the vertical stacking unit is connected to the end part of the indentation moving support, when the vertical stacking unit is in a horizontal state, the other end of the vertical stacking unit is connected to the end part of the transition transportation unit, the vertical stacking unit comprises a stacking section conveying mechanism, and a blocking cylinder for blocking corrugated paper after indentation is arranged at the end part of the stacking section conveying mechanism, which is close to the transition transportation unit;

the transition transportation unit comprises a transition section conveying mechanism, the outer paper pasting unit comprises an upper paper feeding mechanism, a lower paper feeding mechanism and an outer paper pasting section conveying mechanism, the outer paper pasting section conveying mechanism is located right below the transition section conveying mechanism, the joint of the outer paper pasting section conveying mechanism and the transition section conveying mechanism is partially overlapped, and the upper paper feeding mechanism and the lower paper feeding mechanism are located right above and right below the transition section conveying mechanism respectively.

2. The continuous production system of high strength vertical corrugated board as set forth in claim 1, wherein: the indentation section conveying mechanism, the stacking section conveying mechanism, the transition section conveying mechanism and the outer paper pasting section conveying mechanism all comprise conveying brackets and moving rollers distributed among the conveying brackets.

3. The continuous production system of high strength vertical corrugated board as claimed in claim 2, wherein: an indentation section paper feeding moving roller is arranged on the top wall of the end part of the transportation bracket of the indentation section transportation mechanism, which is close to the middle corrugated forming unit.

4. The continuous production system of high strength vertical corrugated board as claimed in claim 2, wherein: the top edges of two side walls of the conveying support of the outer paper pasting section conveying mechanism are provided with an upper paper conveying moving roller and a lower paper conveying moving roller, wherein the lower paper conveying moving roller is positioned right below the transition section conveying mechanism.

5. The continuous production system of high strength vertical corrugated board as set forth in claim 1, wherein: the upper paper feeding mechanism and the lower paper feeding mechanism comprise a facial tissue feeding bracket, facial tissue transition rollers and a gluing component, wherein the facial tissue transition rollers and the gluing component are arranged between the side walls of the integral frame, and the gluing component is close to the right lower outer edge of the facial tissue transition rollers.

6. The continuous production system for high strength vertical corrugated board as set forth in claim 1 or 5, wherein: the gluing assembly comprises a gluing roller, a gluing disc and two groups of gluing pieces, each group of gluing pieces comprises a plurality of closely connected gluing rollers, one end of each gluing piece is close to the gluing roller, and the other end of each gluing piece is located inside the gluing disc.

Images