CN214873094U - Grid vibration-damping paper forming machine - Google Patents

Abstract

The utility model relates to a grid vibration damping paper forming machine, which comprises an interlayer paper unreeling mechanism, an interlayer paper traction mechanism, a first interlayer paper unreeling mechanism, a second interlayer paper unreeling mechanism and a forming mechanism, wherein a first traction device of the interlayer paper traction mechanism is connected between the interlayer paper unreeling mechanism and a second traction device; the first facial tissue unwinding mechanism, the second facial tissue unwinding mechanism and the second traction device are respectively connected with the forming mechanism. This net damping paper make-up machine structural configuration is reasonable, it can realize the drawing of intermediate layer paper, make the garland incision on the intermediate layer paper stable, high-efficiently be pulled open and form latticedly, and can wrap the cover by the facial tissue with the two sides of the intermediate layer paper that stretches out, protect the intermediate layer paper of the inside, form net damping paper, can be used for follow-up online system bag or rolling or cutting off etc. this net damping paper make-up machine reduction in production cost, alleviate staff's work load, reduce the cost of labor, environmental protection more.

Description

Grid vibration-damping paper forming machine

Technical Field

The utility model relates to a net damping paper machine-shaping equipment.

Background

In the present express delivery packing industry, the packing that needs the damping is common packing mode, and damping packing can protect the article that are packed. The common vibration-damping package adopts composite materials of plastic bubble films and other materials (such as laminating paper), the composite materials are used for bag making or are directly used for packaging, the recovery and degradation treatment of some composite materials (such as the composite materials compounded by the laminating paper) are difficult, the environment-friendly requirement of the current society is higher and higher, and the composite materials adopting the bubble films are not environment-friendly enough, have higher recovery treatment cost and need to be upgraded so as to meet the environment-friendly requirement of the society. In particular, various national regions issue various forms of plastic-limiting orders. And the packaging mode of adopting pure paper is more environment-friendly and is beneficial to recycling treatment.

The vibration-damping packaging paper comprises front paper, back paper and interlayer paper, wherein the interlayer paper is positioned between the front paper and the back paper, the interlayer paper is provided with a garland cut, the interlayer paper is in a stretching state, and the interlayer paper is adhered between the front paper and the back paper. Further, adhesive tapes for gluing the interlayer paper are arranged transversely and longitudinally. Further, stretching the pattern drawing cuts of the sandwich paper to form a grid shape; the garland cuts are spaced cuts arranged in parallel in a row, and the spaced cuts between two adjacent rows are staggered. After being bonded with the upper and lower layers of facial tissue, the damping packaging material of pure paper is formed.

SUMMERY OF THE UTILITY MODEL

In view of the technical problem who exists among the background art, the utility model aims at providing a can realize mechanized, stable fashioned net damping paper make-up machine of production.

In order to solve the technical problem, the utility model discloses a following technical scheme: grid damping paper make-up machine includes intermediate layer paper unwinding mechanism, intermediate layer paper drive mechanism, first surface paper unwinding mechanism, second surface paper unwinding mechanism and forming mechanism, its characterized in that: the interlayer paper traction mechanism comprises a first traction device and a second traction device, the first traction device is connected between the interlayer paper unwinding mechanism and the second traction device, the first traction device comprises a first traction roller and a first compression roller which are matched with each other, and the second traction device comprises a second traction roller and a second compression roller which are matched with each other; a first transition guide roller device is arranged between the first facial tissue unwinding mechanism and the forming mechanism and is in linkage fit, a second transition guide roller device is arranged between the second facial tissue unwinding mechanism and the forming mechanism and is in linkage fit, and a second traction device is in linkage fit with the forming mechanism.

A first transverse gluing device is arranged between the forming mechanism and the first face paper unwinding mechanism; a second transverse gluing device is arranged between the forming mechanism and the second facial tissue unreeling mechanism; and a longitudinal gluing device is arranged between the forming mechanism and the first facial tissue unwinding mechanism or the second facial tissue unwinding mechanism.

A roller of the first transition guide roller device between the first transverse gluing device and the forming mechanism is positioned on the back side of the surface paper for gluing; the roller of the second transition guide roller device between the second transverse gluing device and the forming mechanism is positioned on the back side of the surface paper for gluing; the first transition guide roller device or the second transition guide roller device is positioned on the back side of the facial tissue glued by the roller between the longitudinal gluing device and the forming mechanism.

The forming mechanism comprises a collecting roller device, a transverse pressing device and a longitudinal pressing device; the collecting roller device comprises a first collecting roller and a second collecting roller, a composite gap is reserved between the first collecting roller and the second collecting roller, the collecting roller device is connected in front of the transverse pressing device and the longitudinal pressing device, and the transverse pressing device comprises a lifting transverse pressing component and/or a rotating transverse pressing component; the longitudinal pressing device comprises a lifting longitudinal pressing component and/or a rotating longitudinal pressing component.

The first traction roller is in transmission connection with the first compression roller, and the second traction roller is in transmission connection with the second compression roller.

And the second traction roller and/or the second press roller are/is provided with a convex part.

The convex part is a convex block or a convex point or a convex tooth or a hook-and-loop fastener.

The first traction device is connected with the first transmission device, and the second traction device is connected with the second transmission device.

The drawing speed of the second drawing roller is greater than that of the first drawing roller.

The utility model has the advantages that, the grid vibration reduction paper forming machine has reasonable structural layout, can be mechanized, and can realize the stretching of the sandwich paper, so that the garland cut on the sandwich paper is stable and can be efficiently pulled open to form a grid shape, thereby forming the grid vibration reduction sandwich paper (namely a grid paper core), the efficiency is higher, and the two sides (the upper side surface and the lower side surface in the drawing) of the stretched sandwich paper can be covered by the facial tissue, thereby protecting the sandwich paper inside, forming the grid vibration reduction paper, and the grid vibration reduction paper forming machine can be used for the subsequent online bag making or rolling or cutting off and the like; the grid damping paper can also form an online with other equipment, and can be directly used for subsequent processing and manufacturing, such as subsequent bag making, rolling or cutting and the like, so that the grid damping paper is more practical.

Drawings

The following describes details and operational principles of embodiments and examples of the present invention with reference to the drawings.

Fig. 1 is a schematic structural view of the middle mesh damping paper forming machine of the present invention.

FIG. 2 is a schematic structural diagram of an embodiment in which the first traction device and the second traction device share a power source.

Fig. 3 is a schematic structural diagram of an embodiment in which the first traction device and the second traction device in fig. 2 are respectively provided with a power source.

In the figure: 1 intermediate layer paper unwinding mechanism, 2 intermediate layer paper drive mechanism, 3 first surface paper unwinding mechanism, 4 second surface paper unwinding mechanism, 5 forming mechanism, 6 first draw gear, 7 second draw gear, 8 first carry over pinch rolls, 9 second compression roller, 10 second carry over pinch rolls, 11 second compression rollers, 13 first gluing device on horizontal, 14 second gluing device on horizontal, 15 vertical gluing device, 16 collect the roller device, 17 horizontal pressing device, 18 vertical pressing device, 19 first roller that collects, 20 second collect the roller.

Detailed Description

Referring to the drawings, the mesh vibration reduction paper forming machine in the embodiment of the present invention includes an interlayer paper unwinding mechanism 1, an interlayer paper traction mechanism 2, a first surface paper unwinding mechanism 3, a second surface paper unwinding mechanism 4, and a forming mechanism 5.

The laminated paper unwinding mechanism comprises an unwinding shaft, a laminated paper unwinding mechanism, a winding mechanism and a winding mechanism, wherein the unwinding shaft of the laminated paper unwinding mechanism is provided with a laminated paper roll material, and the laminated paper (namely the roll material and the material) on the laminated paper roll material is provided with a garland cut; in the figure, one or more (for example four) unwinding shafts of the interlayer paper unwinding mechanism are arranged, and a plurality of unwinding shafts can be used alternatively or one unwinding shaft can be used for two or can be used for manufacturing double-layer and multi-layer interlayer paper, so that the device is more practical and more convenient.

The sandwich paper unwinding mechanism is connected with the sandwich paper traction mechanism, a sandwich paper roll material on an unwinding shaft of the sandwich paper unwinding mechanism is introduced into the sandwich paper traction mechanism, and the sandwich paper traction mechanism is matched for traction and matched for unwinding of the sandwich paper roll material.

Wherein the sandwich paper traction mechanism comprises a first traction device 6 and a second traction device 7.

The first traction device 6 is connected between the interlayer paper unwinding mechanism 1 and the second traction device 7. The sandwich paper roll material is firstly pulled by a first traction device, and the roll paper coming out from the first traction device is then pulled by a second traction device.

The first drawing device comprises a first drawing roller 8 and a first pressing roller 9 which are matched with each other. The first compression roller presses the first traction roller to be matched with the first traction roller for rolling, and the first compression roller and the first traction roller are matched with each other to draw the sandwich paper entering between the first compression roller and the first traction roller towards the direction of the second traction device.

The second drawing device 7 comprises a second drawing roller 10 and a second pressing roller 11 which are matched with each other. The second compression roller presses the second traction roller to match with the roller pair, and the second compression roller and the second traction roller are matched with each other to continuously draw the sandwich paper entering between the second compression roller and the second traction roller.

The first facial tissue unwinding mechanism and the second facial tissue unwinding mechanism are respectively provided with a facial tissue roll material on an unwinding shaft, and the facial tissue roll material passing through the first facial tissue unwinding mechanism and the second facial tissue unwinding mechanism enters the forming mechanism. The first facial tissue unwinding mechanism and the second facial tissue unwinding mechanism can be respectively provided with a plurality of floating tension rollers, for example, a lifting or swinging floating mode of a power (such as an air cylinder) or a spring and the like is matched, so that the facial tissues and the paper sheets are smoother, and the tension is more stable; and the auxiliary traction devices can be respectively configured to smoothly pull the facial tissue out from respective unwinding shafts.

A first transition guide roller device 34 is arranged between the first facial tissue unreeling mechanism and the forming mechanism and is in linkage fit, a second transition guide roller device 35 is arranged between the second facial tissue unreeling mechanism and the forming mechanism and is in linkage fit, and a second traction device is in linkage fit with the forming mechanism.

The face paper (i.e. the first face paper 21) coming out of the first face paper unwinding mechanism is guided into the forming mechanism 5 after bypassing the roller of the first transition guide roller device. The face paper (i.e. the second face paper 22) coming out of the second face paper unwinding mechanism is guided into the forming mechanism 5 after bypassing the roller of the second transition guide roller device. The stretched mesh damping sandwich paper 23 coming out of the second pulling device of the mesh paper will also enter the forming mechanism. In a collecting roller device of a forming mechanism, grid damping sandwich paper is wrapped by first surface paper and second surface paper to form the grid damping sandwich paper, and the first surface paper and the second surface paper protect the middle grid damping sandwich paper.

The beneficial effect of the embodiment in this embodiment is that, through the cooperation of the first traction device and the second traction device, the roll of the laminated paper on the first unwinding shaft of the laminated paper unwinding mechanism can be unwound, and a speed difference (follow-up type equal speed difference) is formed conditionally through two tractions, so that the traction speed of the second traction device is faster than that of the first traction device, that is, the speed of the second traction device in pulling the material is faster than that of the first traction device in pulling the material, the laminated paper material can be stably and efficiently stretched between the first traction device and the second traction device, so that the garland cut on the laminated paper (i.e., the material) is stably and efficiently pulled to form a grid shape, thereby forming the grid vibration reduction laminated paper, and the efficiency is higher. And then laminating and molding in a molding mechanism, wrapping the grid vibration reduction interlayer paper between the first surface paper and the second surface paper, protecting the interlayer paper inside, and finally forming the grid vibration reduction paper.

Further optimization, a first transverse gluing device 13 is arranged between the forming mechanism and the first face paper unwinding mechanism and used for transversely gluing face paper unwound by the first face paper unwinding mechanism so as to be adhered to interlayer paper in the subsequent process; and a second transverse gluing device 14 is arranged between the forming mechanism and the second facial tissue unwinding mechanism and used for transversely gluing the facial tissue unwound by the second facial tissue unwinding mechanism so as to be adhered to the interlayer paper subsequently. And a longitudinal gluing device 15 can be arranged between the forming mechanism and the first facial tissue unwinding mechanism or the second facial tissue unwinding mechanism so as to longitudinally glue the facial tissue unwound by the first facial tissue unwinding mechanism or the second facial tissue unwinding mechanism and then stick the facial tissue to the interlayer paper. After the gluing device is used for gluing, the surface paper and the interlayer paper of the middle interlayer can be stuck, and the formed grid vibration reduction paper is more stable in structure.

The roller of the first transition guide roller device between the first transverse gluing device and the forming mechanism is positioned on the back side of the surface paper for gluing, namely the roller of the first transition guide roller device between the first transverse gluing device and the forming mechanism is positioned on the back side of the surface paper for gluing, and the roller does not influence the glue; the roller of the second transition guide roller device between the second transverse gluing device and the forming mechanism is positioned on the back side of the surface paper for gluing, namely the roller of the second transition guide roller device between the second transverse gluing device and the forming mechanism is positioned on the back side of the surface paper for gluing, and the roller does not influence the glue. The first transition guide roller device or the second transition guide roller device is arranged on the back surface of the surface paper for gluing in the longitudinal direction between the gluing device and the forming mechanism, and the corresponding roller is arranged on the back surface of the surface paper for gluing, so that the glue is not influenced.

The gluing mode is more, such as glue gun spraying glue, gluing by gluing rollers and the like. In the figure, the glue spraying mode is adopted, and the first transverse glue device and the second transverse glue device both adopt glue guns and are driven by a power device (such as an air cylinder or a motor) to move transversely. The longitudinal gluing device also adopts a glue gun which can be fixed on the frame and can directly spray glue when the material is pulled to longitudinally advance, and the longitudinal gluing device mainly glues the edges or the middle or other places.

The molding mechanism 5 includes a collector roll device 16, a transverse pressing device 17, and a longitudinal pressing device 18.

The collector roll arrangement comprises a first collector roll 19 and a second collector roll 20, which are arranged with a compound gap therebetween, and which are connected upstream of the transverse and longitudinal pressing devices. Materials coming out of the first facial tissue unwinding mechanism, the second facial tissue unwinding mechanism and the interlayer tissue unwinding mechanism enter the collecting roller device. The collecting roller device can collect the interlayer paper and the facial tissues on the two sides of the interlayer paper (respectively unreeled by the first facial tissue unreeling mechanism and the second facial tissue unreeling mechanism). And transverse pressing and longitudinal pressing can be performed through the transverse pressing device and the longitudinal pressing device, the transverse and longitudinal gluing positions are pressed, and the gluing effect is better and firmer. The transverse pressing device and the longitudinal pressing device can be provided with one or more channels. The transverse pressing device comprises a lifting transverse pressing component and/or a rotating transverse pressing component, the lifting transverse pressing component applies pressure in a matched mode through a lifting transverse pressing plate, and the rotating transverse pressing component applies pressure in a matched mode through a rotating shaft with transversely arranged pressing blocks. The longitudinal pressing device comprises a lifting longitudinal pressing component and/or a rotating longitudinal pressing component, the lifting longitudinal pressing component applies pressure by adopting the cooperation of a lifting longitudinal pressing plate, and the rotating longitudinal pressing component applies pressure (namely rolling) by adopting the cooperation of a pressing wheel.

In addition, a floating buffer device 36 is further arranged between the interlayer paper traction mechanism and the forming mechanism, the floating buffer device can adopt a swinging or lifting floating mode, a floating part (such as a rod or a roller) of the floating buffer device is pressed on the stretched interlayer paper to float, a corresponding sensor (such as a photoelectric eye or an encoder) can be configured when the floating position changes (such as a swinging angle), the sensor can be matched to adjust and change the traction speed of the interlayer paper traction mechanism, and meanwhile, the floating buffer device can also store and release materials to connect continuous interlayer paper to be stretched into grids and then pause processing.

In addition, the grid vibration reduction paper forming machine can be connected with a winding mechanism, bag making equipment, cutting equipment and the like after the forming mechanism. The bag making equipment is conventional technology, for example, the common paper bag making equipment comprises a gluing device, a folding device, a cutting device and the like, and a release paper pasting device and the like can be additionally arranged, so that the detailed description is omitted.

On the basis of the embodiment, the first compression roller is passively pressed outside the first traction roller pair, the second compression roller is passively pressed outside the second traction roller pair, the improvement can be further realized, the first traction roller 8 of the first forming traction device is in transmission connection with the first compression roller 9, the second traction roller 10 of the second forming traction device is in transmission connection with the second compression roller 11, the first compression roller and the second compression roller rotate more smoothly, the traction stability is higher, and the transmission connection can be directly in transmission connection through a gear pair or a belt transmission pair or a chain transmission and the like at the end parts of the first compression roller and the second compression roller.

On the basis of the embodiment, the second traction roller 10 and/or the second compression roller 11 are/is provided with a protruding part (not shown) which can stably pull the pulled grid sandwich paper, so that the grid sandwich paper is prevented from being crushed and flattened without protection, and the vibration reduction effect is prevented from being influenced. The convex part is a convex block or a convex point or a convex tooth or a hook-and-loop fastener, especially a hook-and-loop fastener, the cost is low, the technology is mature, the materials are convenient to obtain, and a belt of the hook-and-loop fastener can be wound on the convex part.

On the basis of the embodiment, the first traction device is connected with the first transmission device, the second traction device is connected with the second transmission device, and the traction speed of the first traction device and the traction speed of the second traction device can be controlled and adjusted. That is, the first transmission device and the second transmission device may be linked or may be driven separately. The first traction device and the second traction device may be respectively provided with a power source 30 and a power source 31 (such as servo motors) or share the same power source 32 (such as servo motors) for transmission.

The speed difference is formed through transmission, so that the traction speed of the second traction roller is larger than that of the first traction roller. The material can be stably and efficiently stretched between the first traction device and the second traction device, and the garland cuts on the sandwich paper (namely the material) are stably and efficiently pulled apart to form a grid shape.

Claims (9)

1. Grid damping paper make-up machine includes intermediate layer paper unwinding mechanism, intermediate layer paper drive mechanism, first surface paper unwinding mechanism, second surface paper unwinding mechanism and forming mechanism, its characterized in that:

the interlayer paper traction mechanism comprises a first traction device and a second traction device, the first traction device is connected between the interlayer paper unwinding mechanism and the second traction device, the first traction device comprises a first traction roller and a first compression roller which are matched with each other, and the second traction device comprises a second traction roller and a second compression roller which are matched with each other;

a first transition guide roller device is arranged between the first face paper unreeling mechanism and the forming mechanism for connection and matching,

a second transition guide roller device is arranged between the second facial tissue unreeling mechanism and the forming mechanism for connection and matching,

the second traction device is connected with the forming mechanism.

2. The machine of claim 1 wherein:

a first transverse gluing device is arranged between the forming mechanism and the first face paper unwinding mechanism;

a second transverse gluing device is arranged between the forming mechanism and the second facial tissue unreeling mechanism;

and a longitudinal gluing device is arranged between the forming mechanism and the first facial tissue unwinding mechanism or the second facial tissue unwinding mechanism.

3. The machine of claim 2 wherein:

a roller of the first transition guide roller device between the first transverse gluing device and the forming mechanism is positioned on the back side of the surface paper for gluing;

the roller of the second transition guide roller device between the second transverse gluing device and the forming mechanism is positioned on the back side of the surface paper for gluing;

the first transition guide roller device or the second transition guide roller device is positioned on the back side of the facial tissue glued by the roller between the longitudinal gluing device and the forming mechanism.

4. The machine of claim 1 wherein:

the forming mechanism comprises a collecting roller device, a transverse pressing device and a longitudinal pressing device;

the collecting roller device comprises a first collecting roller and a second collecting roller, a composite gap is reserved between the first collecting roller and the second collecting roller,

the collecting roller device is connected in front of the transverse pressing device and the longitudinal pressing device,

the transverse pressing device comprises a lifting transverse pressing component and/or a rotating transverse pressing component;

the longitudinal pressing device comprises a lifting longitudinal pressing component and/or a rotating longitudinal pressing component.

5. The machine of claim 1 wherein: the first traction roller is in transmission connection with the first compression roller, and the second traction roller is in transmission connection with the second compression roller.

6. The machine of claim 1 wherein: and the second traction roller and/or the second press roller are/is provided with a convex part.

7. The machine of claim 1 wherein: the convex part is a convex block or a convex point or a convex tooth or a hook-and-loop fastener.

8. The machine of claim 1 wherein: the first traction device is connected with the first transmission device, and the second traction device is connected with the second transmission device.

9. The machine of claim 1 wherein: the drawing speed of the second drawing roller is greater than that of the first drawing roller.

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