CN110843258B - Corrugated box automation line - Google Patents

Abstract

The invention discloses an automatic production line for corrugated cartons, which comprises an L-shaped conveying belt, wherein a roller printer, a hydraulic transverse cutting tool, a hydraulic longitudinal cutting tool, a transverse cutting electric scissors, a longitudinal embossing wheel, a transverse embossing wheel, a rotary column core, a nailing machine, a four-finger swinging mechanism and a tape packaging mechanism are sequentially arranged above the L-shaped conveying belt; the transverse cutting electric scissors are arranged below the steps, the wheel shaft of the transverse stamping wheel is vertically connected with the reciprocating pneumatic rod, the end face of the rotary column core is connected with the rotary shaft, and the four-finger swing mechanism consists of a vertical quadrilateral frame body and a crank arm; the adhesive tape packaging mechanism comprises an adhesive tape wheel and a cutting device; the invention also discloses a using method of the production line. The invention provides a production line type corrugated carton production process which comprises continuous printing, hydraulic punching, transverse cutting, longitudinal indentation, transverse indentation, molding, nailing and fixing, box bottom folding and box bottom sealing belts.

Description

Corrugated box automation line

Technical Field

The invention relates to the technical field of paper packaging, in particular to an automatic production line of corrugated cartons.

Background

The corrugated paper board is made into a corrugated paper box through die cutting, indentation, box nailing or box gluing. The corrugated case is a packaging product with the widest application, and the use amount is always the first of various packaging products. Comprises a calcium plastic corrugated case. For more than half a century, corrugated cartons gradually replace transport packaging containers such as wooden boxes and the like with excellent service performance and good processing performance, and become the leading force of transport packaging. It not only protects the goods, is convenient for storage and transportation, but also beautifies the goods and publicizes the goods. The corrugated case belongs to green environmental protection product, and it does benefit to the environmental protection, does benefit to the loading and unloading transportation.

At present, the automation degree of the production process of the corrugated case is still lower, the yield is lower, and improvement is urgently needed.

Disclosure of Invention

The invention aims to solve the defects in the prior art and provides an automatic production line of corrugated cartons.

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

an automatic production line for corrugated cartons comprises an L-shaped conveying belt, wherein a roller printer, a hydraulic transverse cutting tool, a hydraulic longitudinal cutting tool, a transverse cutting electric scissors, a longitudinal embossing wheel, a transverse embossing wheel, a rotary column core, a nailing machine, a four-finger swing mechanism and a tape packaging mechanism are sequentially arranged above the L-shaped conveying belt along the L-shaped advancing direction;

the printing head of the roller printer is contacted with the lower surface of the corrugated board, the width of the cutting edge of the hydraulic transverse cutting tool is larger than that of the corrugated board, the hydraulic longitudinal cutting tool consists of two hydraulic blades which are symmetrically arranged, transverse cutting electric shears are symmetrically arranged at two sides of the corrugated board, an L-shaped conveying belt is provided with a step, the fixed heads of the two transverse cutting electric shears are arranged under the step, and the movable heads of the transverse cutting electric shears intermittently swing towards the corrugated board;

the longitudinal imprinting wheel is formed by connecting a wheel shaft with a pair of disc-shaped thin steel plates in a penetrating manner, the transverse imprinting wheel is formed by movably connecting a wheel shaft with a disc-shaped thin steel plate in a sleeved and penetrating manner, the wheel shaft of the transverse imprinting wheel is vertically connected with a reciprocating pneumatic rod, the rotary column core is in a cuboid shape, the end face of the rotary column core is connected with a rotating shaft, and the wheel shaft of the longitudinal imprinting wheel and the rotating shaft of the rotary column core are respectively connected with a motor;

the rotary column core is positioned at the corner of the L-shaped conveying belt, a nailing machine is arranged near the side surface of the rotary column core far away from the direction of the transverse stamping wheel, the nailing machine is specifically a laser positioning nailing machine, and four column edges of the rotary column core are provided with laser induction strips;

the four-finger swing mechanism is arranged near the end face of the rotary column core far away from the direction of the rotary shaft and consists of a vertical quadrilateral frame body and a crank arm movably sleeved at the center of the frame edge, the four frame edges of the vertical quadrilateral frame body are movably sleeved with a sleeve, one end of the crank arm is fixedly welded at the middle position of the sleeve, and the other end of the crank arm is connected at the angular position of the vertical quadrilateral frame body through a spring;

the adhesive tape packaging mechanism comprises an adhesive tape wheel and a shearing device, the adhesive tape wheel is also connected with a wheel shaft in a penetrating mode, two ends of the wheel shaft of the adhesive tape wheel are welded at the bottom of the vertical quadrilateral frame body through supporting rods, an adhesive tape adhesive surface on the adhesive tape wheel faces upwards, and the shearing device is specifically an intermittent electric scissors.

Preferably, the surface of the L-shaped conveyor belt is lined with a layer of non-slip rubber.

Preferably, four column sides of the rotary column core are respectively provided with a laser induction strip, specifically a dark blue reflection strip, and the laser induction strips are pasted on the rotary column core through gluing.

In addition, the invention also discloses a use method of the corrugated case automatic production line, which comprises the following steps:

s1, continuous printing: printing the bottom surface of the corrugated board by using a roller printer;

s2, hydraulic impact breaking: opening a hydraulic longitudinal cutting tool to cut two longitudinal notches A at the head of the corrugated board, and opening a hydraulic transverse cutting tool to cut off the tail of the corrugated board, thereby forming a standard paperboard with two longitudinal notches A at the head;

s3, transverse incision: opening the crosscut electric scissors at intervals, leaving three transverse cuts B on the standard paper board, and converging the transverse cuts B with the longitudinal notch A, thereby obtaining the standard paper board with a narrow edge at the head part and a transverse cut B in the middle part;

s4, longitudinal indentation: opening a longitudinal impression wheel to enable the standard paperboard to form two sections of symmetrical longitudinal impressions C;

s5, transverse indentation: opening a transverse indentation wheel to enable the standard paperboard to form four transverse indentations D;

s6, modeling: rotating the rotary column core to enable the standard paperboard to be curled and finally tightly wrapped on the rotary column core;

s7, nailing and fixing: starting a nailing machine, starting a laser nailing mode, and controlling a nail head to nail at a thicker narrow edge according to laser reflection quantity to obtain a box body rudiment with a bidirectional opening, wherein two ends of the box body rudiment are provided with four separated folded plates;

s8, folding the box bottom: the prototype of the L-shaped conveyer belt box body moves towards the four-finger swing mechanism and meets the blocking of the crank arm, so that four folded plates at the bottom of the box are closed;

s9, a box bottom sealing tape: and then the corrugated carton is contacted with the adhesive tape wheel through the adhesive tape packaging mechanism and is automatically stuck and attached, the adhesive tape wheel blocks the carton body to enable the carton body to automatically turn over, the adhesive tape wheel rotates to release the adhesive tape, the adhesive tape is turned over along with the carton body, four folded plates of the carton body are sealed, the sealing is finished, and finally the corrugated carton finished product with an opening at one end is obtained.

Compared with the prior art, the invention has the beneficial effects that:

the invention provides a production line type corrugated carton production process which comprises continuous printing, hydraulic punching, transverse cutting, longitudinal indentation, transverse indentation, molding, nailing and fixing, box bottom folding and box bottom sealing belts.

Drawings

Fig. 1 is a schematic structural view of an automatic production line for corrugated cartons according to the present invention;

fig. 2 is a schematic view of a work flow of an automatic corrugated carton production line according to the present invention;

in the figure: the device comprises an L-shaped conveyer belt 1, a roller printer 2, a hydraulic transverse cutting tool 3, a hydraulic longitudinal cutting tool 4, a transverse cutting electric scissors 5, a longitudinal embossing wheel 6, a transverse embossing wheel 7, a rotary column core 8, a nailing machine 9, a four-finger swinging mechanism 10, an adhesive tape packaging mechanism 11, a step 12 and a reciprocating pneumatic rod 13.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments.

Referring to fig. 1, an automatic production line for corrugated cases comprises an L-shaped conveyor belt 1, wherein a roller printer 2, a hydraulic transverse cutting tool 3, a hydraulic longitudinal cutting tool 4, a transverse cutting electric scissors 5, a longitudinal embossing wheel 6, a transverse embossing wheel 7, a rotary column core 8, a nailing machine 9, a four-finger swing mechanism 10 and a tape packaging mechanism 11 are sequentially arranged above the L-shaped conveyor belt 1 along the L-shaped advancing direction; the printing head of the roller printer 2 is contacted with the lower surface of the corrugated board, the width of the cutting edge of the hydraulic transverse cutting tool 3 is larger than that of the corrugated board, the hydraulic longitudinal cutting tool 4 consists of two hydraulic blades which are symmetrically arranged, the transverse cutting electric shears 5 are symmetrically arranged at the two sides of the corrugated board, the L-shaped conveying belt 1 is provided with a step 12, the fixed heads of the two transverse cutting electric shears 5 are arranged below the step 12, and the movable heads of the transverse cutting electric shears 5 intermittently swing towards the corrugated board; the longitudinal embossing wheel 6 is formed by connecting a wheel shaft with a pair of disc-shaped thin steel plates in a penetrating manner, the transverse embossing wheel 7 is formed by movably connecting a wheel shaft with a disc-shaped thin steel plate in a penetrating manner, the wheel shaft of the transverse embossing wheel 7 is vertically connected with a reciprocating pneumatic rod 13, the rotary column core 8 is in a cuboid shape, the end face of the rotary column core 8 is connected with a rotating shaft, and the wheel shaft of the longitudinal embossing wheel 6 and the rotating shaft of the rotary column core 8 are respectively connected with a motor; the rotary column core 8 is positioned at the corner of the L-shaped conveying belt 1, a nailing machine 9 is arranged near the side surface of the rotary column core 8 far away from the direction of the transverse impressing wheel 7, the nailing machine 9 is specifically a laser positioning nailing machine, and four column edges of the rotary column core 8 are provided with laser induction strips; a four-finger swing mechanism 10 is arranged near the end face of the rotating column core 8 far away from the rotating shaft direction, the four-finger swing mechanism 10 consists of a vertical quadrilateral frame body and a crank arm movably sleeved at the center of the frame edge, four frame edges of the vertical quadrilateral frame body are movably sleeved with a sleeve, one end of the crank arm is fixedly welded at the middle position of the sleeve, and the other end of the crank arm is connected at the angular position of the vertical quadrilateral frame body through a spring; the adhesive tape packaging mechanism 11 comprises an adhesive tape wheel and a cutting device, the adhesive tape wheel is also connected with a wheel shaft in a penetrating mode, two ends of the wheel shaft of the adhesive tape wheel are welded at the bottom of the vertical quadrilateral frame body through supporting rods, an adhesive tape adhesive surface on the adhesive tape wheel faces upwards, and the cutting device is specifically an intermittent electric scissors.

Referring to fig. 1, the surface of the L-shaped conveyor belt 1 is lined with an anti-slip rubber layer, so that the friction between the corrugated board and the L-shaped conveyor belt 1 is properly increased, and the unfavorable phenomenon of low processing precision caused by conveying failure is avoided.

Referring to fig. 1, four post limits of rotatory post core 8 all are equipped with the laser induction strip and specifically are dark blue reflection strip, and the laser induction strip is pasted on rotatory post core 8 through the veneer, and different thickness corrugated papers are inconsistent to the laser emission degree, and the accessible reflection volume determines the exact nailing position.

In addition, the invention also discloses a use method of the corrugated case automatic production line, which comprises the following steps:

s1, continuous printing: printing the bottom surface of the corrugated board by using a roller printer 2;

s2, hydraulic impact breaking: opening a hydraulic longitudinal cutter 4 to cut two longitudinal gaps A at the head of the corrugated board, and opening a hydraulic transverse cutter 3 to cut off the tail of the corrugated board, thereby forming a standard paperboard with two longitudinal gaps A at the head;

s3, transverse incision: the crosscut electric scissors 5 are opened intermittently, three transverse cuts B are left on the standard paper board and are converged with the longitudinal notch A, and therefore the standard paper board with the narrow edge at the head part and the transverse cut B at the middle part is obtained;

s4, longitudinal indentation: opening the longitudinal impressing wheel 6 to enable the standard paperboard to form two sections of symmetrical longitudinal impressions C;

s5, transverse indentation: opening the transverse impressing wheel 7 to form four transverse impressions D on the standard paperboard;

s6, modeling: rotating the rotary column core 8 to enable the standard paperboard to be curled and finally tightly wrapped on the rotary column core 8;

s7, nailing and fixing: starting a nailing machine 9, starting a laser nailing mode, controlling a nail head to nail at a thicker narrow edge according to laser reflection quantity to obtain a box body rudiment with a bidirectional opening, wherein two ends of the box body rudiment are provided with four separated folded plates;

s8, folding the box bottom: the prototype of the box body of the L-shaped conveyer belt 1 moves towards the four-finger swing mechanism 10 and meets the blocking of the crank arm, so that four folded plates at the bottom of the box are closed;

s9, a box bottom sealing tape: and then the corrugated carton is contacted with the adhesive tape wheel through the adhesive tape packaging mechanism 11 and is automatically stuck and attached, the adhesive tape wheel blocks the carton body, the carton body is automatically turned over, the adhesive tape wheel rotates to release the adhesive tape, the adhesive tape is turned over along with the carton body, four folded plates of the carton body are sealed, the sealing is finished, and finally the corrugated carton finished product with an opening at one end is obtained.

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 person skilled in the art should be considered to be within the technical scope of the present invention, and the technical solutions and the inventive concepts thereof according to the present invention should be equivalent or changed within the scope of the present invention.

Claims (4)

1. An automatic production line for corrugated cartons comprises an L-shaped conveying belt (1), and is characterized in that a roller printer (2), a hydraulic transverse cutting tool (3), a hydraulic longitudinal cutting tool (4), a transverse cutting electric shear (5), a longitudinal embossing wheel (6), a transverse embossing wheel (7), a rotary column core (8), a nailing machine (9), a four-finger swing mechanism (10) and a tape packaging mechanism (11) are sequentially arranged above the L-shaped conveying belt (1) along the L-shaped advancing direction;

the printing head of the roller printing machine (2) is in contact with the lower surface of the corrugated board, the width of the cutting edge of the hydraulic transverse cutting tool (3) is larger than that of the corrugated board, the hydraulic longitudinal cutting tool (4) is composed of two symmetrically arranged hydraulic blades, the transverse cutting electric shears (5) are symmetrically arranged at two sides of the corrugated board, the L-shaped conveying belt (1) is provided with a step (12), the fixed heads of the two transverse cutting electric shears (5) are arranged below the step (12), and the movable heads of the transverse cutting electric shears (5) intermittently swing towards the corrugated board;

the longitudinal embossing wheel (6) is formed by connecting a wheel shaft with a pair of disc-shaped thin steel plates in a penetrating manner, the transverse embossing wheel (7) is formed by movably connecting a wheel shaft with a disc-shaped thin steel plate in a penetrating manner, the wheel shaft of the transverse embossing wheel (7) is vertically connected with a reciprocating pneumatic rod (13), the rotary column core (8) is in a cuboid shape, the end face of the rotary column core (8) is connected with a rotating shaft, and the wheel shaft of the longitudinal embossing wheel (6) and the rotating shaft of the rotary column core (8) are respectively connected with a motor;

the rotary column core (8) is positioned at the corner of the L-shaped conveying belt (1), a nailing machine (9) is arranged near the side face, far away from the direction of the transverse impressing wheel (7), of the rotary column core (8), the nailing machine (9) is specifically a laser positioning nailing machine, and laser induction strips are arranged on four column edges of the rotary column core (8);

a four-finger swing mechanism (10) is arranged near the end face of the rotating column core (8) far away from the rotating shaft direction, the four-finger swing mechanism (10) is composed of a vertical quadrilateral frame body and a crank arm movably sleeved at the center of the frame edge, four frame edges of the vertical quadrilateral frame body are movably sleeved with a sleeve, one end of the crank arm is fixedly welded at the middle position of the sleeve, and the other end of the crank arm is connected to the angular position of the vertical quadrilateral frame body through a spring;

the adhesive tape packaging mechanism (11) comprises an adhesive tape wheel and a shearing device, the adhesive tape wheel is also connected with a wheel shaft in a penetrating mode, two ends of the wheel shaft of the adhesive tape wheel are welded at the bottom of the vertical quadrilateral frame body through support rods, an adhesive tape adhesive surface on the adhesive tape wheel faces upwards, and the shearing device is specifically an intermittent electric shear.

2. An automated production line for corrugated cartons as claimed in claim 1 and characterized in that the surface of the L-shaped conveyor belt (1) is lined with a non-slip rubber layer.

3. The automatic corrugated carton production line according to claim 1, wherein the four column edges of the rotating column core (8) are provided with laser induction bars, particularly dark blue reflection bars, and the laser induction bars are adhered to the rotating column core (8) by gluing.

4. The use method of the automatic corrugated carton production line according to claim 1, comprising the following steps:

s1, continuous printing: printing the bottom surface of the corrugated board by using a roller printer (2);

s2, hydraulic impact breaking: opening a hydraulic longitudinal cutting tool (4) to cut two longitudinal notches A at the head of the corrugated board, and opening a hydraulic transverse cutting tool (3) to cut off the tail of the corrugated board, thereby forming a standard paperboard with two longitudinal notches A at the head;

s3, transverse incision: opening the crosscut electric scissors (5) at intervals, leaving three transverse cuts B on the standard paperboard, and converging the transverse cuts B with the longitudinal notch A, thereby obtaining the standard paperboard with the narrow edge at the head part and the transverse cut B at the middle part;

s4, longitudinal indentation: opening a longitudinal impressing wheel (6) to enable the standard paperboard to form two sections of symmetrical longitudinal impressions C;

s5, transverse indentation: opening the transverse impressing wheel (7) to form four transverse impressions D on the standard paperboard;

s6, modeling: rotating the rotary column core (8) to enable the standard paperboard to be curled and finally tightly wrapped on the rotary column core (8);

s7, nailing and fixing: starting a nailing machine (9), starting a laser nailing mode, controlling a nail head to nail at a thicker narrow edge according to laser reflection quantity to obtain a box body rudiment with a bidirectional opening, wherein two ends of the box body rudiment are provided with four separated folded plates;

s8, folding the box bottom: the prototype of the box body of the L-shaped conveyer belt (1) moves towards the four-finger swing mechanism (10) and meets the blockage of the crank arm, so that four folded plates at the bottom of the box are closed;

s9, a box bottom sealing tape: and then the corrugated carton is contacted with the adhesive tape wheel through the adhesive tape packaging mechanism (11) and is automatically stuck and attached, the adhesive tape wheel blocks the carton body, the carton body is automatically turned over, the adhesive tape wheel rotates to release the adhesive tape, the adhesive tape is turned over along with the carton body, four folded plates of the carton body are sealed, the sealing is finished, and finally the corrugated carton finished product with an opening at one end is obtained.

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