CN210006355U

CN210006355U - aluminum-plated composite label capable of resisting thermal expansion and cold contraction and capable of being continuously printed by ink jet

Info

Publication number: CN210006355U
Application number: CN201921189630.2U
Authority: CN
Inventors: 陈进; 陈家楠
Original assignee: Rugao Four - Pass Color Printing Factory
Current assignee: Nantong Chensheng Packaging Printing Co ltd
Priority date: 2019-07-25
Filing date: 2019-07-25
Publication date: 2020-01-31
Anticipated expiration: 2029-07-25

Abstract

The utility model relates to a label technical field, but aim at providing thermal expansion and contraction resistance's compound label of aluminizing that can continuous inkjet print, its technical scheme main points are including the facial tissue, the base stock, with the aluminizing layer of facial tissue laminating setting, be provided with viscose layer between aluminizing layer and the facial tissue, be provided with not dry glue layer between aluminizing layer and the base stock, a plurality of deformation buffering holes have been seted up in facial tissue edge encircleing, a plurality of deformation buffering holes run through the facial tissue setting, be provided with PET or PE or POF shrink rete between aluminizing layer and non-dry glue layer, the facial tissue surface is scribbled and is equipped with waterproof oily layer, side surface that waterproof oily layer deviates from the facial tissue is scribbled and is equipped with the wearing layer, the utility model discloses a label has the advantages that paste firmly, difficult stick up the limit and drop.

Description

aluminum-plated composite label capable of resisting thermal expansion and cold contraction and capable of being continuously printed by ink jet

Technical Field

The utility model relates to a label technical field, in particular to compound labels of aluminizing that can continuous inkjet print of anti expend with heat and contract with cold.

Background

The label is an information paper card or an information card for identifying and distinguishing objects, the -like label is formed by printing information on the surface layer of facial tissue, then bonding the facial tissue and the bottom tissue to through a non-drying adhesive layer, and when the label is required to be used, the facial tissue is detached from the bottom tissue and is adhered to the surface of an object to be marked, and attention needs to be paid to the use process so as to avoid the information on the surface of the facial tissue of the label from being affected with moisture and worn.

Chinese patent with publication number CN208061541U discloses labels, which include an ink layer, a paper base layer, and a separation film layer, wherein the ink layer is attached to the paper base layer, the paper base layer is attached to the th surface of the separation film, the side of the separation film layer, which is far away from the paper base layer, is a second surface, the second surface is divided into a th region and a second region, the th region is attached with a pressure sensitive adhesive, the second region is attached with a pressure sensitive adhesive, and the th region is larger than the second region.

Although the prior art scheme uses the heat-sensitive adhesive for labeling, the purpose of easily removing the old label is achieved, in the actual use process, because the labeled objects such as cartons, paperboards and the like are changed by the external environment and the weather, the change of expansion with heat and contraction with cold is easily generated, so that the phenomena of four-side raised feet, middle bulge or wrinkles and the like occur after the label is adhered, the label is further not firmly adhered, the normal use of the label is influenced, and the appearance is not attractive, therefore, improvement is needed.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing compound labels of aluminizing that can continuous inkjet print of thermal expansion and cold contraction resistance, have paste firmly, be difficult for sticking up the limit and drop, and waterproof grease proofing nature is good advantage.

The above technical purpose of the present invention can be achieved by the following technical solutions:

compound label of aluminizing of thermal expansion and cold contraction resistance's continuous inkjet printing, including facial tissue and base stock, still include the aluminized layer that sets up with the facial tissue laminating, aluminized layer with be provided with viscose layer between the facial tissue, be provided with not dry glue layer between aluminized layer and the base stock, the facial tissue edge is encircleed and has been seted up a plurality of deformation buffering holes, and is a plurality of the deformation buffering hole runs through the facial tissue setting.

By adopting the technical scheme, when the label is adhered to the surface of an article through the non-dry adhesive layer, the aluminum-plated layer can effectively separate oil stains and water stains on the surface of the article, so that the oil stains and the water stains can be prevented from permeating to the surface layer of the facial tissue in the using process of the label, and further, the information on the surface of the facial tissue is stained, the deformation buffer holes are formed in the periphery of the facial tissue of the label, so that the label can effectively absorb the expanded part when the label is expanded with heat and contracted with cold, and the deformation buffer holes can synchronously deform to degrees along with the expansion or contraction of the surface of the label, thereby playing a buffering role and effectively improving the adhesion fastness of the label.

, a plurality of deformation buffer holes are uniformly arranged at intervals.

Through adopting above-mentioned technical scheme, deformation buffer hole is seted up at even interval, can be so that the stress deformation in deformation buffer hole is more even to reach the effect that improves the label and paste the planarization.

, a shrink film layer of PET or PE or POF is arranged between the aluminum plating layer and the non-drying glue layer.

By adopting the technical scheme, the PET or PE or POF shrink film layer has good ductility and crease-resistant and stretch-resistant performances, the label is adhered to the surface of an object through the non-drying glue layer, when the surface of the object deforms, the PET or PE or POF shrink film layer can adapt to the deformation of the surface of the object within the range of to change, so that the face paper without stretching is reinforced and protected, the adhering effect and firmness are also improved, and in addition, in the aspect of , the PET or PE or POF shrink film layer can be further to prevent glue from penetrating into the face paper to influence the printing of label information.

, a second adhesive layer is arranged between the aluminum plating layer and the PET or PE or POF shrink film layer.

Through adopting above-mentioned technical scheme, the second viscose layer can be with PET or PE or POF shrink film layer level firm laminating bonding on aluminizing layer surface.

, coating a water and oil repellent layer on the surface of the facial tissue.

By adopting the technical scheme, the waterproof and oil-repellent layer can improve the waterproof and oil-repellent performance of the surface of the facial tissue, so that the information pollution on the surface of the facial tissue is reduced.

, the side surface of the waterproof and oil-repellent layer, which faces away from the facial tissue, is coated with an abrasion-resistant layer.

Through adopting above-mentioned technical scheme, the wearing and tearing on facial tissue top layer when wearing layer can effectively reduce the label and use effectively keep the integrality and the definition of facial tissue top layer printed information.

, an easy-tearing edge strip extends outwards from the corner of the aluminum plating layer.

By adopting the technical scheme, the facial tissue and the aluminum-plated layer can be very conveniently uncovered from the base paper through the easy-tearing edge strip during use, and the use convenience of the label is improved.

And , arranging an easy-tearing line at the joint of the easy-tearing edge strip and the aluminum plating layer along the edge of the aluminum plating layer.

Through adopting above-mentioned technical scheme, after the label pasting is accomplished, press the easy line ball that tears strake and aluminized layer junction with the hand, will easily tear the strake and tear from aluminized layer to prevent to easily tear the strake and tear the damage that leads to facial tissue and aluminized layer because of external force.

To sum up, the utility model discloses following beneficial effect has:

1. the deformation buffer holes are arranged around the periphery of the surface paper, so that the expanded part of the labeling object can be effectively absorbed when the labeling object expands with heat and contracts with cold, and the deformation buffer holes can synchronously deform to degrees along with the expansion or contraction of the surface of the labeling object, thereby playing a buffer role and effectively improving the adhesion fastness of the label;

2. through the arrangement of the PET or PE or POF shrink film layer, when the surface of an object deforms, the PET or PE or POF shrink film layer can adapt to the deformation of the surface of the object within a certain range of to change, so that the face paper without stretching is reinforced and protected, the pasting effect and firmness are improved, and in addition, in the aspect of , the PET or PE or POF shrink film layer can further prevent glue from penetrating into the face paper to influence the printing of label information.

Drawings

FIG. 1 is a schematic overall view of thermal expansion and contraction resistant continuous ink jet printable aluminum-plated composite labels of the example;

FIG. 2 is a schematic diagram of thermal expansion and contraction resistant continuous ink jet printable aluminum-plated composite label monomer labels in the example;

FIG. 3 is an enlarged partial schematic view of portion A of FIG. 2;

fig. 4 is a schematic cross-sectional view of a portion of a single label of the thermal expansion and contraction resistant continuous ink jet printable aluminum-plated composite label of example.

In the figure, 1, a surface paper layer, 11, a waterproof and oil-repellent layer, 12, an abrasion-resistant layer, 13, a color spray coating layer, 2, a base paper layer, 3, an aluminum-plated layer, 31, th adhesive layers, 32, a second adhesive layer, 33, easy-tearing edge strips, 331, easy-tearing lines, 4, an adhesive layer, 5, deformation buffer holes and 6, a PET or PE or POF shrink film layer.

Detailed Description

The present invention will be described in further detail in with reference to the accompanying drawings.

Example (b):

aluminium-plated composite labels capable of continuous ink-jet printing and resisting thermal expansion and cold contraction, as shown in fig. 1, fig. 3 and fig. 4, comprises a surface paper 1 and a bottom paper 2, and further comprises an aluminium-plated layer 3 made of PET material and attached to the surface paper 1, wherein a th adhesive layer 31 is uniformly coated between the aluminium-plated layer 3 and the surface paper 1, the aluminium-plated layer 3 and the surface paper 1 are adhered at through the th adhesive layer 31, the aluminium-plated layer 3 has good blocking effect on oil stains and water stains, and in the using process of the labels, the situation that the oil stains and the water stains penetrate into the surface of the surface paper 1 and cause stain on the information on the surface of the surface paper 1 can be.

As shown in fig. 2, 3 and 4, a non-drying adhesive layer 4 is arranged between the aluminum coating layer 3 and the base paper 2, the non-drying adhesive layer 4 adopts a polyurethane adhesive layer, the polyurethane adhesive layer has excellent shear strength and impact resistance, is suitable for various structural bonding, has good flexibility, and can effectively improve the bonding firmness of the label. Outwards extend at the edge of aluminizing layer 3 and be provided with easily tear strake 33, the junction of easily tearing strake 33 and aluminizing layer 3 is provided with easily tears line 331 along aluminizing layer 3 edge, take off facial tissue 1 and aluminizing layer 3 from base stock 2 that can be convenient through easily tearing strake 33 during the use, laminating facial tissue 1 and aluminizing layer 3 to article surface after, can tear strake 33 and tear the separation easily through easily tearing line 331, prevent to tear the damage that leads to facial tissue 1 and aluminizing layer 3 because of easily tearing strake 33 by external force.

As shown in fig. 3 and 4, a PET or PE or POF shrink film layer 6 is further disposed between the aluminum plated layer 3 and the adhesive layer 4, a second adhesive layer 32 is disposed between the aluminum plated layer 3 and the PET or PE or POF shrink film layer 6, and the PET or PE or POF shrink film layer 6 can be attached and bonded to the surface of the aluminum plated layer 3 through the second adhesive layer 32. the PET or PE or POF shrink film layer 6 has good ductility, crease resistance and tensile resistance, and the label is attached to the surface of an object through the adhesive layer 4, when the surface of the object deforms, the PET or PE or POF shrink film layer 6 can change in accordance with the deformation of the surface of the object within a certain range of , so as to reinforce and protect the tissue 1 without stretch, and improve the effect and firmness of attachment, and in addition, in the aspect of , the PET or PE or POF shrink film layer 6 can further enter to prevent the glue from penetrating into the tissue 1 to affect the printing of the label information.

As shown in fig. 2 and 3, 1 edge at the facial tissue has been encircleed and has been seted up a plurality of deformation buffer hole 5, a plurality of deformation buffer hole 5 run through facial tissue 1 setting, and adjacent deformation buffer hole 5 is even interval setting, set up deformation buffer hole 5 at 1 periphery of facial tissue of label and make the part that pastes the mark object can the effective absorption inflation in expend with heat and contract with cold, deformation buffer hole 5 can be along with pasting the synchronous deformation that mark object surface expansion or shrink carried out degree certainly, thereby play the cushioning effect, label's the fastness of pasting has effectively been improved.

As shown in fig. 2, 3 and 4, layers of water-repellent oil-repellent layers 11 are uniformly coated on the surface of the face paper 1, and a color spray coating layer 13 formed by ink-jet printing coating glue is further coated between the water-repellent oil-repellent layers 11 and the face paper 1, so that the face paper is suitable for continuous ink-jet printing, the water-repellent oil-repellent layers 11 are polyurethane waterproof coatings, and the water-repellent oil-repellent layers 11 formed by the polyurethane waterproof coatings can improve the water-repellent oil-repellent performance of the surface of the face paper 1, reduce the information pollution on the surface of the face paper 1, and enable the printing precision of labels to reach 5760dpi, thereby achieving the printing effect at the.

The side surface that deviates from facial tissue 1 at waterproof oil repellent layer 11 is scribbled and is equipped with wearing layer 12, and wearing layer 12 is modified Polytetrafluoroethylene (PTFE) wear-resistant coating, sets up wearing layer 12 and can effectively reduce the wearing and tearing on facial tissue 1 top layer when the label uses, effectively keeps the integrality and the definition of facial tissue 1 top layer printed information.

The specific implementation process comprises the following steps:

when the label is needed, the easily torn edge strip 33 is pinched by a hand to take off the surface paper 1, the aluminum coating 3 and the PET or PE or POF shrinkage film layer 6 from the base paper 2, the aluminum coating 3, the PET or PE or POF shrinkage film layer 6 are stuck on the surface of an article through the non-dry adhesive layer 4, after the sticking is completed, the easily torn line pressing line 331 at the joint of the easily torn edge strip 33 and the aluminum coating 3 is pressed by a hand, the easily torn edge strip 33 is torn away from the aluminum coating 3, and the sticking of the label is completed.

The present embodiment is only for explaining the present invention, and it is not limited to the present invention, and those skilled in the art can make modifications to the present embodiment without inventive contribution as required after reading the present specification, but all of them are protected by patent laws within the scope of the claims of the present invention.

Claims

The aluminum-plated composite label comprises surface paper (1) and base paper (2), and is characterized by further comprising an aluminum-plated layer (3) attached to the surface paper (1), wherein a adhesive layer (31) is arranged between the aluminum-plated layer (3) and the surface paper (1), an adhesive layer (4) is arranged between the aluminum-plated layer (3) and the base paper (2), a plurality of deformation buffer holes (5) are formed in the edge of the surface paper (1) in a surrounding mode, and the deformation buffer holes (5) penetrate through the surface paper (1).
2. The continuous ink-jet printable aluminum-plated composite label with resistance to thermal expansion and cold contraction according to claim 1, wherein the plurality of deformation buffer holes (5) are uniformly spaced.
3. The continuous ink jet printable aluminum-plated composite label with resistance to thermal expansion and cold contraction according to claim 2, wherein a PET or PE or POF shrink film layer (6) is further disposed between the aluminum-plated layer (3) and the adhesive layer (4).
4. The continuous ink jet printable aluminum-plated composite label with resistance to thermal expansion and cold contraction according to claim 3, wherein a second adhesive layer (32) is disposed between the aluminum-plated layer (3) and the PET or PE or POF shrink film layer (6).
5. The continuous ink jet printable aluminum-plated composite label with resistance to thermal expansion and cold contraction according to claim 1, wherein the face paper (1) is coated with a water and oil repellent layer (11).
6. The continuous ink jet printable aluminum-plated composite label with resistance to thermal expansion and cold contraction according to claim 5, wherein the side surface of the water and oil repellent layer (11) facing away from the face paper (1) is coated with an abrasion resistant layer (12).
7. A thermal expansion and contraction resistant continuous ink jet printable aluminum-plated composite label according to claim 4, wherein the aluminum-plated layer (3) is provided with an easy-to-tear edge strip (33) extending outwards at the corner.
8. The continuous ink jet printable aluminum-plated composite label with resistance to thermal expansion and cold contraction according to claim 7, wherein the joint of the easy-to-tear edge strip (33) and the aluminum-plated layer (3) is provided with an easy-to-tear line (331) along the edge of the aluminum-plated layer (3).