阅读说明：本技术 一种瓦楞纸制造工艺 (Corrugated paper manufacturing process ) 是由 杨志勇 于 2021-10-13 设计创作，主要内容包括：本申请涉及一种瓦楞纸制造工艺,其包括以下工艺步骤：S1、裁纸：对瓦楞原纸裁切成一定的规格；S2、压制瓦楞：将瓦楞原纸压制成瓦楞芯；S3、涂胶：将瓦楞芯的瓦楞峰进行涂胶；S4、粘接面纸：将两个面纸粘接在瓦楞芯的瓦楞峰上；S5、加压：对面纸施加压力；S6、干燥：对面纸以及瓦楞心的粘接处干燥,得到瓦楞纸；S7、清理：对瓦楞纸表面进行清理；S8、印刷：对瓦楞纸进行印刷；S9、检验入库：对瓦楞纸进行检验后入库。本申请通过在干燥与印刷的步骤之间添加清理步骤,减少瓦楞纸上的杂质,提高对瓦楞纸的印刷效果。(The application relates to a corrugated paper manufacturing process, which comprises the following process steps: s1, cutting paper: cutting the corrugated raw paper into a certain specification; s2, pressing corrugation: pressing the corrugated base paper into a corrugated core; s3, gluing: gluing the corrugation peaks of the corrugated core; s4, bonding of surface paper: bonding the two pieces of surface paper on the corrugated peaks of the corrugated core; s5, pressurization: applying pressure to the facial tissue; s6, drying: drying the bonding part of the surface paper and the corrugated core to obtain corrugated paper; s7, cleaning: cleaning the surface of the corrugated paper; s8, printing: printing the corrugated paper; s9, checking and warehousing: and (5) checking the corrugated paper and then warehousing. This application is through adding the clearance step between the step of drying and printing, reduces the impurity on the corrugated paper, improves the printing effect to the corrugated paper.)

1. The corrugated paper manufacturing process is characterized by comprising the following process steps:

s1, cutting paper: cutting the corrugated base paper;

s2, pressing corrugation: pressing the corrugated base paper into a corrugated core;

s3, gluing: gluing the corrugation peaks of the corrugated core;

s4, bonding of surface paper: bonding the two pieces of surface paper on the corrugated peaks of the corrugated core;

s5, pressurization: applying pressure to the facial tissue;

s6, drying: drying the bonding part of the surface paper and the corrugated core to obtain corrugated paper;

s7, cleaning: cleaning the surface of the corrugated paper;

s8, printing: printing the corrugated paper;

s9, checking and warehousing: and (5) checking the corrugated paper and then warehousing.

2. A process for making corrugated paper as claimed in claim 1, wherein: the printing method comprises the following steps that S7 and S8 are achieved through the ink-jet printer (1), and the ink-jet printer (1) comprises an ink-jet printer body (11), a rack (12) and a transportation assembly used for driving a plurality of corrugated papers to move to the ink-jet printer body (11); the ink-jet printer body (11) and the transportation assembly are arranged on the rack (12); be provided with cleaning plate (14) on frame (12), cleaning plate (14) are located the transportation subassembly top, cleaning plate (14) are used for contradicting with the corrugated paper upper surface, cleaning plate (14) are located transportation subassembly pan feeding department.

3. A process for making corrugated paper as claimed in claim 2, wherein: the corrugated paper printing machine is characterized in that a collecting assembly (2) used for collecting a plurality of printed corrugated paper is arranged on the rack (12), and the collecting assembly (2) comprises a lifting and transporting piece (21) used for lifting and transporting the corrugated paper, an adjusting frame (22) and a driving piece (23) used for driving the corrugated paper to move; the lifting and conveying piece (21) is arranged on the rack (12) and is positioned at the discharging position of the conveying assembly; the adjusting frame (22) is rotatably connected to one end, far away from the machine frame (12), of the lifting and conveying piece (21); the driving piece (23) is arranged on the adjusting frame (22); the adjusting frame (22) is provided with a driving component (4) for driving the adjusting frame (22) to rotate.

4. A process for making corrugated paper as claimed in claim 3, wherein: the lifting and conveying piece (21) comprises a lifting frame (211), two lifting rollers (212), a plurality of lifting belts (213) and a plurality of lifting motors (214) for driving the lifting rollers (212) to rotate; the lifting frame (211) is arranged on the frame (12) and is positioned at the discharge position of the transportation assembly; the two lifting rollers (212) are rotatably connected to a lifting frame (211); a plurality of lifting belt (213) cover is located two on lifting roller (212), a plurality of lifting belt (213) top is used for inconsistent with the corrugated paper.

5. A corrugated paper making process according to claim 4, wherein: a pressing assembly (3) is arranged on the lifting frame (211), and the pressing assembly (3) comprises two pressing rollers (31), a driving motor (32) for driving the pressing rollers (31) to rotate and a plurality of pressing belts (33); the two pressing rollers (31) are positioned above the two lifting rollers (212), and the two pressing rollers (31) are rotatably connected to the lifting frame (211); a plurality of pressing belt (33) are arranged on the two lifting rollers (212) in a sleeved mode, and a plurality of spaces for lifting movement of a plurality of corrugated paper are formed between the pressing belt (33) and the lifting belts (213).

6. A process for making corrugated paper as claimed in claim 3, wherein: the adjusting frame (22) comprises a rotating rod (221) and a sliding frame (222); one end of the rotating rod (221) is rotatably connected to the lifting and transporting piece (21), and the sliding frame (222) is connected to the rotating rod (221) in a sliding mode; the driving piece (23) comprises two driving rollers (231), a plurality of driving belts (232) and a driving motor (233) for driving the driving rollers (231) to rotate; the two driving rollers (231) are rotationally connected to the sliding frame (222); the plurality of driving belts (232) are sleeved on the two driving rollers (231), and the plurality of driving belts (232) are used for transporting the plurality of corrugated paper; the driving assembly (4) is used for driving the sliding frame (222) to vertically move.

7. A corrugated paper making process according to claim 6, wherein: the driving assembly (4) comprises a driving rack (41) and a hydraulic cylinder (43) for driving the sliding frame (222) to move in the vertical direction; the driving rack (41) is arranged at one end of the lifting and conveying piece (21) far away from the rack (12); one end of the sliding frame (222) far away from the lifting and transporting piece (21) is vertically connected to the driving rack (41) in a sliding mode.

8. A process for making corrugated paper as claimed in claim 7, wherein: a storage assembly (6) is arranged on the driving rack (41), and the storage assembly (6) comprises a rotating disc (62) for receiving a plurality of corrugated papers and a conversion motor (61) for driving the rotating disc (62) to rotate; the rotating disc (62) is rotatably connected to the drive frame (41).

9. A process of making corrugated paper as claimed in claim 8, wherein: the sliding frame (222) is rotatably connected with a limiting assembly (5) used for clamping a plurality of corrugated papers, and the limiting assembly (5) comprises two rotating plates (51) and a driving structure (52) used for driving the two rotating plates (51) to rotate along the directions close to or far away from each other; two rotating plate (51) all rotate to be connected on sliding frame (222), two rotating plate (51) up end is used for inconsistent with a plurality of corrugated paper.

10. A process of making corrugated paper as claimed in claim 9, wherein: the driving structure (52) comprises a driving rack (521), a driving gear (529), a sliding plate (522), a driving frame (523), two abutting blocks (524), a limiting block (525), a supporting plate (527) for supporting the sliding plate (522) and a pressing spring (528) for maintaining the abutting state of the limiting block (525) and the sliding plate (522); the driving frame (523) is arranged on the sliding frame (222); the driving gear (529) is rotationally connected to the driving frame (523), and the rotating plate (51) is arranged on the driving gear (529); the sliding plate (522) is arranged on the driving rack (521), the sliding plate (522) is connected to the driving frame (523) in a sliding mode along the vertical direction, and the driving rack (521) is meshed with the driving gear (529); the limiting block (525) is connected to the driving frame (523) in a sliding mode along a direction close to or far away from the sliding plate (522), guide inclined planes (53) used for moving the limiting block (525) along the direction far away from the sliding plate (522) are arranged at two ends of the limiting block (525), and the guide inclined planes (53) are used for abutting against the sliding plate (522); the supporting plate (527) is arranged on the driving frame (523); the driving rack (521) is located between the two contact blocks (524), the two contact blocks (524) are arranged on the driving rack (41), and the driving rack (521) is used for being in contact with the contact blocks (524).

Technical Field

The application relates to the field of corrugated paper manufacturing, in particular to a corrugated paper manufacturing process.

Background

Corrugated paper is a plate-like object formed by bonding corrugated paper formed by processing a corrugated roll with a liner paper.

At present, a manufacturing process of corrugated paper generally presses corrugated base paper, then two pieces of face paper are bonded on the corrugation peaks of the corrugated base paper to obtain a semi-finished corrugated paper, then the bonded semi-finished corrugated paper is dried, so that the bonding position of the semi-finished corrugated paper is dried to obtain a finished corrugated paper, and then the finished corrugated paper is printed.

With respect to the related art among the above, the inventors consider that the following drawbacks exist: before printing, impurities may exist on finished corrugated paper, and the impurities fall off from the corrugated paper after printing is finished, so that the printing effect is reduced.

Disclosure of Invention

In order to reduce the impurity on the corrugated paper, improve the printing effect to the corrugated paper, this application provides a corrugated paper manufacturing process.

The corrugated paper manufacturing process provided by the application adopts the following technical scheme:

a corrugated paper manufacturing process comprises the following process steps: .

S1, cutting paper: cutting the corrugated base paper;

s2, pressing corrugation: pressing the corrugated base paper into a corrugated core;

s3, gluing: gluing the corrugation peaks of the corrugated core;

s4, bonding of surface paper: bonding the two pieces of surface paper on the corrugated peaks of the corrugated core;

s5, pressurization: applying pressure to the facial tissue;

s6, drying: drying the bonding part of the surface paper and the corrugated core to obtain corrugated paper;

s7, cleaning: cleaning the surface of the corrugated paper;

s8, printing: printing the corrugated paper;

s9, checking and warehousing: and (5) checking the corrugated paper and then warehousing.

By adopting the technical scheme, the cleaning is added between the drying and printing process steps, so that impurities on the printing surface of the corrugated paper are reduced, the occurrence of the condition that the printing pattern is printed on the impurities during printing is reduced, and the printing quality of the corrugated paper is improved.

Optionally, S7 and S8 are implemented by an inkjet printer, where the inkjet printer includes an inkjet printer body, a frame, and a transportation assembly for driving a plurality of corrugated papers to move to the inkjet printer body; the ink-jet printer body and the transportation assembly are arranged on the rack; be provided with the clearance board in the frame, the clearance board is located the transportation subassembly top, the clearance board is used for contradicting with the corrugated paper upper surface, the clearance board is located transportation subassembly pan feeding department.

Through adopting above-mentioned technical scheme, the transportation subassembly transports a plurality of corrugated papers to the ink jet printer body on, and the cleaning plate is contradicted corrugated paper printing face, and the impurity of cleaning plate on to the printing face of corrugated paper is got rid of, improves the printing effect of ink jet printer body to the corrugated paper.

Optionally, a collecting assembly for collecting a plurality of printed corrugated papers is arranged on the rack, and the collecting assembly comprises a lifting and transporting piece for lifting and transporting the corrugated papers, an adjusting frame and a driving piece for driving the corrugated papers to move; the lifting and conveying piece is arranged on the rack and is positioned at the discharging position of the conveying assembly; the adjusting frame is rotatably connected to one end, far away from the rack, of the lifting and transporting piece; the driving piece is arranged on the adjusting frame; the adjusting frame is provided with a driving assembly for driving the adjusting frame to rotate.

Through adopting above-mentioned technical scheme, promote during the use and transport the corrugated paper after the printing is accomplished and transport to the driving piece of alignment jig on, when the corrugated paper of stack is more, drive assembly drives the alignment jig and rotates for the alignment jig is kept away from the one end that promotes the transportation piece and is located the top of stack corrugated paper, reduces because the more condition that leads to the unable stack of corrugated paper of stack of corrugated paper takes place, makes things convenient for operating personnel's operation.

Optionally, the lifting and transporting part comprises a lifting frame, two lifting rollers, a plurality of lifting belts and a plurality of lifting motors for driving the lifting rollers to rotate; the lifting machine frame is arranged on the rack and is positioned at the discharging position of the conveying assembly; the two lifting rollers are rotatably connected to the lifting frame; a plurality of two are located to the elevator belt cover on the lifting roller, it is a plurality of the elevator belt top is used for inconsistent with the corrugated paper.

Through adopting above-mentioned technical scheme, the promotion motor drives a lifting roll and rotates during the use, and a plurality of lifting belts rotate and drive the corrugated paper promotion for the corrugated paper is along promoting to the driving piece on the alignment jig on, makes things convenient for operating personnel's operation, makes the alignment jig can adjust corrugated paper stack height scope and further improves.

Optionally, a pressing assembly is arranged on the lifting frame, and the pressing assembly comprises two pressing rollers, a driving motor for driving the pressing rollers to rotate, and a plurality of pressing belts; the two pressing rollers are positioned above the two lifting rollers, and both the two pressing rollers are rotatably connected to the lifting rack; the pressing belts are sleeved on the two lifting rollers, and a plurality of spaces for lifting movement of a plurality of corrugated paper are formed between the pressing belts and the lifting rollers.

When the corrugated paper is lifted by the plurality of lifting belts, the corrugated paper may move in a direction away from the lifting belts, so that the corrugated paper is difficult to lift to the adjusting rack.

Through adopting above-mentioned technical scheme, during the use, driving motor drives the compressing roller and rotates for a plurality of compressing bands on two compressing rollers rotate, make and compress tightly the corrugated paper between compressing band and the lifting belt, make the corrugated paper promote to the driving piece on the alignment jig through the lifting belt more easily.

Optionally, the adjusting bracket comprises a rotating rod and a sliding bracket; one end of the rotating rod is rotatably connected to the lifting and transporting piece, and the sliding frame is connected to the rotating rod in a sliding mode; the driving piece comprises two driving rollers, a plurality of driving belts and a driving motor for driving the driving rollers to rotate; the two driving rollers are rotationally connected to the sliding frame; the plurality of driving belts are sleeved on the two driving rollers and used for conveying the plurality of corrugated paper; the driving assembly is used for driving the sliding frame to move vertically.

By adopting the technical scheme, when the corrugated paper stacking machine is used, the driving assembly drives the rotating rod to rotate, and the sliding frame moves on the rotating rod, so that the driving roller at the discharging position is always positioned right above the stacked corrugated paper, and the condition that the corrugated paper is obliquely stacked during stacking is reduced; the driving motor drives the driving belt to rotate the driving roller, so that the driving belts rotate, the driving belts drive the corrugated paper to discharge and stack, and operation of operators is facilitated.

Optionally, the driving assembly includes a driving frame and a hydraulic cylinder for driving the sliding frame to move in the vertical direction; the driving machine frame is arranged at one end of the lifting and transporting piece far away from the frame; one end of the sliding frame, which is far away from the lifting and transporting piece, is vertically connected to the driving rack in a sliding manner.

Through adopting above-mentioned technical scheme, the pneumatic cylinder drives the frame that slides on vertical direction during the use, and the condition of slope takes place when reducing a plurality of corrugated paper stacks, makes things convenient for operating personnel's operation.

Optionally, a storage assembly is arranged on the drive rack, and the storage assembly comprises a rotating disc for receiving a plurality of corrugated papers and a conversion motor for driving the rotating disc to rotate; the rotating disc is rotatably connected to the driving rack.

Through adopting above-mentioned technical scheme, when a plurality of corrugated paper stacks were too much, the conversion motor drove the rolling disc and rotates, and drive assembly drives the vertical downstream of sliding rack afterwards for corrugated paper afterwards is placed in the rolling disc up end, and operating personnel can transport away the corrugated paper that the stack was accomplished, makes things convenient for operating personnel's operation.

Optionally, the sliding frame is rotatably connected with a limiting assembly for clamping a plurality of corrugated papers, and the limiting assembly comprises two rotating plates and a driving structure for driving the two rotating plates to rotate in a direction close to or away from each other; two the rotor plate all rotates to be connected on the sliding frame, two the rotor plate up end is used for inconsistent with a plurality of corrugated paper.

Because when drive assembly drove the vertical downward removal of sliding rack, the condition that probably has next corrugated paper to take off from driving the area takes place, and this will lead to some corrugated paper to drop to the rolling disc at random.

Through adopting the above-mentioned technical scheme, during the use, drive structure drives two rotor plates and rotates along the direction that is close to each other, make two rotor plate levels set up, two rotor plate up end are used for supporting the corrugated paper, drive assembly drives the vertical downstream of sliding rack afterwards, make a plurality of follow drive to take and break away from the back and place in two rotor plate up end, drive structure drives two rotor plates afterwards and rotates along the direction that is close to each other, make a plurality of corrugated papers that are located the rotor plate up end drop to the rolling disc through the direction of two vertical boards, the rotor plate realizes leading a plurality of corrugated papers when realizing supporting a plurality of corrugated papers, make accurate the placing on the rolling disc of a plurality of corrugated papers.

Optionally, the driving structure includes a driving rack, a driving gear, a sliding plate, a driving frame, two contact blocks, a limiting block, a supporting plate for supporting the sliding plate, and a compression spring for maintaining a contact state between the limiting block and the sliding plate; the driving frame is arranged on the sliding frame; the driving gear is rotationally connected to the driving frame, and the rotating plate is arranged on the driving gear; the sliding plate is arranged on the driving rack, the sliding plate is connected to the driving frame in a sliding mode along the vertical direction, and the driving rack is meshed with the driving gear; the limiting block is connected to the driving frame in a sliding mode along the direction close to or far away from the sliding plate, two ends of the limiting block are provided with guiding inclined planes used for moving the limiting block along the direction far away from the sliding plate, and the guiding inclined planes are used for abutting against the sliding plate; the supporting plate is arranged on the driving frame; the drive rack is located two between the conflict piece, two the conflict piece all set up in the frame, the drive rack be used for with the conflict piece is inconsistent.

By adopting the technical scheme, when in use, the driving component drives the sliding frame to vertically move upwards, the abutting block positioned above the driving rack abuts against the driving rack, the sliding frame continuously drives the driving gear to vertically move upwards, so that the driving gear and the driving rack move relatively, the driving gear rotates to drive the rotating plates to rotate along the direction of mutual approaching, the sliding plate is abutted against the guide inclined plane at the upper end of the limiting block, the limiting block moves along the direction far away from the driving rack, the sliding plate is pressed against the guiding inclined plane at the lower end of the limiting block under the driving of the pressing spring, so that the sliding plate is pressed against the supporting plate, the pressing spring, the guiding inclined plane and the supporting plate limit the sliding plate, the driving rack and the driving gear are relatively static, the two rotating plates are kept close to each other, and a plurality of corrugated papers fall between the two rotating plates; then the driving assembly drives the sliding frame to vertically move downwards, the contact block positioned below the driving rack is abutted against the driving rack, the sliding frame continues to drive the driving gear to vertically move downwards, so that the driving gear and the driving rack relatively move, the driving gear rotates to drive the rotating plates to rotate along the directions far away from each other, so that a plurality of corrugated papers are placed on the rotating disc under the guide of the two rotating plates, the sliding plates are abutted against the guide inclined planes at the lower end of the limiting blocks, the limiting blocks move along the directions far away from the driving rack, and the sliding plates are abutted against the guide inclined planes at the upper end of the limiting blocks under the drive of the compression springs, so that the driving gear and the driving rack are reset; the driving assembly drives the sliding frame to vertically move, and meanwhile, the rotating plate is driven to rotate and be locked.

In summary, the present application includes at least one of the following beneficial technical effects:

1. the cleaning process step is added in the drying and printing process steps, so that the printing effect on the corrugated paper is improved;

2. the corrugated paper is convenient for operators to stack through the collecting assembly, and the working efficiency is improved;

3. make things convenient for operating personnel to take out and stack the corrugated paper through storing subassembly and spacing subassembly.

Drawings

Fig. 1 is a corrugated paper making process of the present application.

Fig. 2 is a schematic view of the structure of the ink jet printer of the present application.

Fig. 3 is a schematic view of the cleaning plate of fig. 2.

Fig. 4 is a schematic structural view of the collecting assembly, the compressing assembly and the driving assembly in fig. 2.

Fig. 5 is a schematic view of the lifting carriage and hold-down assembly of fig. 4.

Fig. 6 is a schematic structural view of the storage assembly, the adjustment frame and the driving assembly in fig. 4.

Fig. 7 is an enlarged view taken at a in fig. 6 for showing the adjustment stand.

Fig. 8 is a schematic structural view of the limiting assembly in fig. 6.

Fig. 9 is a schematic structural view of fig. 8 after the driving gear is hidden.

Fig. 10 is a cross-sectional view of the storage assembly of fig. 6.

Reference numerals: 1. an ink jet printer; 11. an ink jet printer body; 12. a frame; 13. a conveyor belt; 14. cleaning the plate; 2. a collection assembly; 21. lifting the transport member; 211. lifting the frame; 212. a lift roller; 213. a lifting belt; 214. a hoisting motor; 215. a transition roll; 216. a transition zone; 22. an adjusting bracket; 221. rotating the rod; 222. a sliding frame; 23. a driver; 231. driving the roller; 232. driving the belt; 233. driving a motor; 3. a compression assembly; 31. a pressure roller; 32. a drive motor; 33. a compression band; 4. a drive assembly; 41. a drive chassis; 42. a blocking frame; 43. a hydraulic cylinder; 5. a limiting component; 51. a rotating plate; 52. a drive structure; 521. a drive rack; 522. a slide plate; 523. a driving frame; 524. a contact block; 525. a limiting block; 526. a slide bar; 527. a support plate; 528. a compression spring; 529. a drive gear; 53. a guide slope; 6. a storage assembly; 61. a switching motor; 62. and (6) rotating the disc.

Detailed Description

The present application is described in further detail below with reference to figures 1-10.

The embodiment of the application discloses corrugated paper manufacturing process. Referring to fig. 1, a corrugated paper manufacturing process comprises the following process steps:

s1, cutting paper: cutting the corrugated base paper;

s2, pressing corrugation: pressing the corrugated base paper into a corrugated core;

s3, gluing: gluing the corrugation peaks of the corrugated core;

s4, bonding of surface paper: bonding the two pieces of surface paper on the corrugated peaks of the corrugated core;

s5, pressurization: applying pressure to the facial tissue;

s6, drying: drying the bonding part of the surface paper and the corrugated core to obtain corrugated paper;

s7, cleaning: cleaning the surface of the corrugated paper;

s8, printing: printing the corrugated paper;

s9, checking and warehousing: and (5) checking the corrugated paper and then warehousing.

Referring to fig. 1 and 2, S7 and S8 are implemented by an inkjet printer 1, where the inkjet printer 1 includes an inkjet printer body 11, a frame 12, and a transportation assembly for driving a plurality of corrugated papers to move to the inkjet printer body 11; the conveying assembly comprises a conveying belt 13, the conveying belt is arranged on the rack 12, and the ink-jet printer body 11 is fixedly connected to the upper end face of the rack 12.

Referring to fig. 2 and 3, a cleaning plate 14 vertically arranged is fixedly connected to the frame 12, the cleaning plate 14 is located above the conveyor belt 13, and the lower end face of the cleaning plate 14 is used for abutting against the upper end face of corrugated paper on the conveyor belt 13 to clean impurities on the corrugated paper.

During the use, the corrugated paper passes through between clearance board 14 and conveyer belt 13, and clearance board 14 clears up the impurity on corrugated paper printing surface, improves the printing effect of ink jet printer 1 to the corrugated paper.

Referring to fig. 2 and 4, a rack 12 and a collecting assembly 2 for collecting printed corrugated paper are sequentially distributed along a corrugated paper conveying direction, and the collecting assembly 2 includes a lifting and conveying member 21, an adjusting bracket 22 and a driving member 23 for driving the corrugated paper to move; the lifting and conveying piece 21 and the adjusting frame 22 are arranged in sequence along the corrugated paper conveying direction.

Referring to fig. 4 and 5, the lifting and transporting member 21 includes a lifting frame 211, two lifting rollers 212, a plurality of lifting belts 213, a plurality of lifting motors 214 for driving the lifting rollers 212 to rotate, a transition roller 215, and a plurality of transition belts 216; the frame 12 and the lifting frame 211 are distributed along the corrugated paper conveying direction; the transition roller 215 is rotatably connected to the frame 12; the two lifting rollers 212 are rotatably connected to the lifting frame 211, the two lifting rollers 212 are distributed along the corrugated paper conveying direction, one lifting roller 212, which is relatively far away from the frame 12, of the two lifting rollers 212 is located above the other lifting roller 212, and the other lifting roller 212, which is relatively close to the frame 12, of the two lifting rollers 212 is located above the transition roller 215; a plurality of lifting belts 213 are sleeved on the two lifting rollers 212; a plurality of transition belts 216 are sleeved on the transition rollers 215 and the lifting rollers 212; the lifting motor 214 is fixedly connected to the lifting frame 211, and an output shaft of the lifting motor 214 is coaxially and fixedly connected to the lifting roller 212.

Referring to fig. 4 and 5, the lifting frame 211 is provided with a pressing assembly 3 for pressing the corrugated paper onto the plurality of lifting belts 213, and the pressing assembly 3 includes two pressing rollers 31, a driving motor 32 for driving the pressing rollers 31 to rotate, and a plurality of pressing belts 33; the two pressure rollers 31 are rotatably connected to the lifting frame 211; the pressing belts 33 are sleeved on the two pressing rollers 31, and a corrugated paper conveying channel is formed between the pressing belts 33 and the lifting belt 213; the driving motor 32 is fixedly connected to the lifting frame 211, and an output shaft of the driving motor 32 is coaxially and fixedly connected to one of the pressure rollers 31.

During the use, lifting motor 214 passes through lifting roller 212, transition roller 215 drives a plurality of lifting belts 213 and a plurality of transition area 216 and rotates, driving motor 32 drives a plurality of hold-down strips 33 through pinch-off roller 31 and rotates, make the corrugated paper of carrying out the output from conveyer belt 13 promote to lifting belts 213 through a plurality of transition areas 216, hold-down strips 33 and lifting belts 213 compress tightly the corrugated paper, reduce the condition emergence that the corrugated paper breaks away from lifting belts 213, make the corrugated paper promote to on the alignment jig 22 through lifting belts 213 more easily.

Referring to fig. 4 and 6, the adjusting bracket 22 includes two rotating levers 221 and two sliding brackets 222; the driving member 23 includes two driving rollers 231, a plurality of driving belts 232, and a driving motor 233 for driving the driving rollers 231 to rotate.

Referring to fig. 6 and 7, one end of each of the two rotating rods 221 is rotatably connected to the lifting frame 211, the two driving rollers 231 are located between the two sliding frames 222, the two driving rollers 231 are rotatably connected to the sliding frames 222, and the two driving rollers 231 are distributed along the length direction of the sliding frames 222; a plurality of driving belts 232 are sleeved on the two driving rollers 231; the driving motor 233 is fixedly connected to the sliding frame 222, and an output shaft of the driving motor 233 is fixedly connected to the driving roller 231.

Referring to fig. 6, a driving assembly 4 for driving the sliding frame 222 to move in the vertical direction is disposed on the sliding frame 222, and the driving assembly 4 includes a driving frame 41, a blocking frame 42 and two hydraulic cylinders 43; the driving frame 41 is positioned at one side of the lifting frame 211 far away from the frame 12; the hydraulic cylinder 43 is vertically arranged downwards, and the hydraulic cylinder 43 is fixedly connected to the driving rack 41 and is positioned above the sliding rack 222; the blocking frame 42 is fixedly connected to the piston rods of the two hydraulic cylinders 43, one end of the sliding frame 222, which is far away from the rotating rod 221, is rotatably connected to the blocking frame 42, and the inner side wall of the blocking frame 42 is used for guiding corrugated paper which is separated from the driving belt 232.

During the use, the corrugated paper is followed and is taken 232 to slide into and block in the frame 42, and the corrugated paper offsets with blocking the frame 42 inside wall under inertia for a plurality of corrugated papers stack together easily, and when the corrugated paper stack was too high, pneumatic cylinder 43 drove and blocks the vertical upward movement of frame 42, and further make things convenient for operating personnel to be in the same place a plurality of corrugated paper stacks.

Referring to fig. 6 and 8, the blocking frame 42 is provided with a limiting assembly 5, and the limiting assembly 5 includes two rotating plates 51 and a driving structure 52 for driving the two rotating plates 51 to rotate in a direction approaching or departing from each other; the rotating plates 51 are rotatably connected to the lower end surface of the blocking frame 42.

Referring to fig. 8 and 9, the driving structure 52 includes a driving rack 521, a driving gear 529, a sliding plate 522, a driving rack 523, two contact blocks 524, a limit block 525, a sliding lever 526, a support plate 527 for supporting the sliding plate 522, and a pressing spring 528 for maintaining the limit block 525 in an interference state with the sliding plate 522.

Referring to fig. 8 and 9, the driving frame 523 is fixedly connected to the blocking frame 42, the driving gear 529 is rotatably connected to an end surface of the driving frame 523 away from the blocking frame 42, the driving gear 529 is fixedly connected to the rotating plate 51, and a rotating axis of the rotating plate 51 is coaxially arranged with the driving gear 529; the driving rack 521 is vertically arranged, the horizontally arranged sliding plate 522 is fixedly connected to the driving rack 521, the sliding plate 522 is positioned above the rotating axis of the rotating plate 51, and the sliding plate 522 is vertically connected to the driving frame 523 in a sliding manner; the support plate 527 is fixedly connected to the driving frame 523, the support plate 527 is located under the sliding plate 522, and the support plate 527 is abutted to the sliding plate 522.

Referring to fig. 8 and 9, the sliding rod 526 is connected to the driving rack 523 in a sliding manner along the length direction of the sliding plate 522, and the sliding rod 526 is located on the side of the sliding plate 522 away from the driving rack 521; the limiting block 525 is vertically arranged, the limiting block 525 is fixedly connected to one end, close to the driving rack 521, of the sliding rod 526, the upper end and the lower end of the limiting block 525 are both provided with guiding inclined planes 53, one guiding inclined plane 53 is arranged between the upper end face of the limiting block 525 and one end face, close to the driving rack 521, of the limiting block 525, the other guiding inclined plane 53 is arranged between the lower end face of the limiting block 525 and one end face, close to the driving rack 521, of the limiting block 525, and the guiding inclined plane 53 is used for abutting against the sliding plate 522; the pressing spring 528 is sleeved on the sliding rod 526, one end of the pressing spring 528 is fixedly connected to the driving frame 523, and the other end of the pressing spring 528 is fixedly connected to an end face of the limiting block 525 far away from the driving rack 521; the driving rack 521 is located between the two contact blocks 524, the two contact blocks 524 and the driving rack 521 are distributed along the vertical direction, and both the two contact blocks 524 are fixedly connected to the driving frame 41.

When the device is used, the hydraulic cylinder 43 drives the blocking frame 42 to vertically move upwards, the abutting block 524 positioned above the driving rack 521 abuts against the driving rack 521, the blocking frame 42 continuously drives the driving gear 529 to vertically move upwards, so that the driving gear 529 and the driving rack 521 relatively move, the driving gear 529 rotates to drive the rotating plate 51 to rotate in the direction of approaching each other, the sliding plate 522 abuts against the guide inclined plane 53 at the upper end of the limiting block 525, the limiting block 525 moves in the direction of separating from the driving rack 521, the sliding plate 522 abuts against the guide inclined plane 53 at the lower end of the limiting block 525 under the driving of the compression spring 528, so that the sliding plate 522 abuts against the supporting plate 527, the compression spring 528, the guide inclined plane 53 and the supporting plate 527 limit the sliding plate 522, so that the driving rack 521 and the driving gear 529 are relatively static, and the two rotating plates 51 are kept in the state of approaching each other, a plurality of corrugated papers fall between the two rotating plates 51; then the hydraulic cylinder 43 drives the blocking frame 42 to move vertically downwards, the contact block 524 positioned below the driving rack 521 is contacted with the driving rack 521, the sliding frame 222 continues to drive the driving gear 529 to move vertically downwards, so that the driving gear 529 and the driving rack 521 move relatively, the driving gear 529 rotates to drive the rotating plates 51 to rotate along the directions away from each other, so that a plurality of corrugated papers are placed on the rotating disc 62 under the guidance of the two rotating plates 51, the sliding plates 522 are contacted with the guide inclined planes 53 at the lower end of the limiting block 525, the limiting block 525 moves along the directions away from the driving rack 521, the sliding plates 522 are contacted with the guide inclined planes 53 at the upper end of the limiting block 525 under the drive of the compression spring 528, and the driving gear 529 and the driving rack 521 are reset; the driving assembly 4 drives the sliding frame 222 to vertically move and simultaneously drives the rotating plate 51 to rotate and lock.

Referring to fig. 6 and 10, a storage assembly 6 is disposed on the driving rack 41, the storage assembly 6 includes a rotating disc 62 for receiving a plurality of corrugated papers and a conversion motor 61 for driving the rotating disc 62 to rotate, the rotating disc 62 is rotatably connected to the driving rack 41, the rotating disc 62 is located below the blocking frame 42, and the conversion motor 61 drives the rotating disc 62 to rotate through belt transmission.

The implementation principle of the corrugated paper manufacturing process in the embodiment of the application is as follows: when the corrugated paper stacking device is used, the corrugated paper is conveyed to the lower part of the cleaning plate 14 through the conveying belt 13, the cleaning plate 14 cleans the printed surface of the corrugated paper, the printed surface of impurities on the corrugated paper is reduced, then the conveying belt 13 is conveyed into the ink-jet printer body 11 for ink-jet printing, the corrugated paper is conveyed onto the driving belts 232 through the transition belts 216, the pressing belts 33 and the lifting belts 213, the driving belts 232 drive the corrugated paper to enter the blocking frame 42 and fall onto the rotating disc 62 through the blocking frame 42 and the rotating disc 51, after the corrugated paper is stacked to a certain height, the driving structure 52 drives the two rotating discs 51 to rotate along the mutually approaching direction, so that the corrugated paper falls onto the two rotating discs 51, the converting motor 61 drives the rotating disc 62 to rotate, a plurality of corrugated paper with higher stacking is slidingly moved out, then the hydraulic cylinder 43 drives the blocking frame 42 to vertically move downwards, the driving structure 52 drives the rotating plate 51 to rotate along the direction away from each other, so that the corrugated paper on the rotating plate 51 is placed on the rotating disc 62, and the working efficiency of workers is greatly improved.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.