CN210039404U - Environment-friendly separable interlayer logistics label - Google Patents
Environment-friendly separable interlayer logistics label Download PDFInfo
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- CN210039404U CN210039404U CN201920588230.2U CN201920588230U CN210039404U CN 210039404 U CN210039404 U CN 210039404U CN 201920588230 U CN201920588230 U CN 201920588230U CN 210039404 U CN210039404 U CN 210039404U
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Abstract
The environment-friendly detachable intermediate layer logistics label is characterized in that the detachable paper (3) is composed of a face paper (1) and a detachable layer (2) with the back surface covered with an adhesive layer (7), the thickness of the detachable layer (2) is smaller than 10um, even the detachable layer is ultrathin to 0.5-2 um, and the detachable layer (2) is formed after the back surface of the face paper (1) is coated, dried or UV cured. The three-layer logistics label structure can be simpler, the processes of die cutting waste discharge and the like in the manufacturing process are easy to control, the production efficiency is high, and the preparation process is safe and stable. The consumption of paper or film in the middle layer is saved, the resource waste is reduced, and the product is more environment-friendly. The peeling force is uniformly improved, and the labeling is convenient; the application range is wide, and convenience and rapidness are realized. The label is more suitable for logistics labels, the consumption of paper or film materials in the middle layer is eliminated, the resource waste is reduced, and the product and the preparation process are safer and more environment-friendly.
Description
Technical Field
The utility model relates to a structural improvement technique, especially the environmental protection can be separated off intermediate layer commodity circulation label of IPC classification G09F mark, label or data plate.
Background
The physical distribution label is a self-adhesive label, usually a composite material which takes paper, film or special data as a fabric, the reverse side is coated with an adhesive, and silicon-coated maintenance paper is taken as base paper.
The conventional coating techniques for manufacturing the logistics label are various, mainly adopt the processes of roll coating, blade coating, high-pressure casting coating and the like, and are required to ensure the average rationality of coating to the maximum extent, prevent bubbles and pinholes and ensure the coating quality. The non-drying adhesive printed commodity is mainly commodity label and label, and is made up by using composite paper prefabricated by paper processing factory, and said composite paper is coated with a layer of non-drying adhesive on the back surface of printing stock, and adhered on the anti-sticking paper which is easy to strip. After printing, the printed product is printed by a knife line, the blank redundant part is stripped, a printed product with a certain shape is left on the release paper, and the finished product is removed and stuck to a commodity or a package in use. In addition, the printing material includes a metal foil or a film in addition to paper.
The currently widely used separable logistics labels consist essentially of a three layer structure, i.e., a base paper, an intermediate layer, and a face stock. Wherein, the intermediate layer is used as a supporting structure and can be a film of 20-80 um, coated paper of 30-100 gsm, glassine or other paper. After the three layers of materials are glued and compounded, die cutting is carried out to manufacture the separable logistics label. However, the label structure is actually as many as six to eight layers from a microscopic planer structure.
The existing logistics label product has the defects of multiple structural layers and complicated processing process, so that the production process is complex and the production efficiency is low. If paper is used as a label printing layer, the peeling force is too high, the paper is not easy to peel and is easy to tear, and the peeling force is too low, so that the label is automatically peeled off, and the performance of the final label is influenced. If the anti-counterfeit label printing layer is made of a thin film material, the surface of the paper label is rough relative to the thin film and has high penetration oil absorption and water absorption, and the surface on the back of the printing layer is coated with the release layer, so that the coating amount is required to be large, and the production and preparation cost is high because the release agent is expensive. In addition, from the resource consumption and the cost, the whole full width is coated with the film, or the whole full width of the film or paper is adopted as the middle layer, so that the ecological environment resource demand is high, and the economic cost is high. After the release agent is coated, the coating layer is coated to form the middle layer with printing and isolating functions, and the surface of the back of the label printing layer is rough, so that the peeling force is not uniform and the local part is torn. From the final application, the composite structure has high stiffness, and is easy to fall off when passing through a rod and entering a printer during printing, so that the final labeling is inconvenient when the uncovering force is improved; and the working procedures of die cutting waste discharge and the like in the manufacturing process are not easy to control. In summary, in the prior art, if the anti-counterfeit label technology is directly applied to the logistics label, the cost is high and the performance is unstable.
SUMMERY OF THE UTILITY MODEL
The utility model aims at providing an intermediate level commodity circulation label can be left in the environmental protection, more is suitable for the commodity circulation label, eliminates the consumption of intermediate level paper or film material, reduces the wasting of resources, and product and preparation process safety ring more protect.
The purpose of the utility model is realized by the following technical measures: separable paper comprises the separable layer between facial tissue and the back cover non-setting adhesive layer, and separable layer thickness is less than 10um, and is ultra-thin to 0.5 ~ 2um even.
Particularly, the front surface of the face paper is covered with a silicone oil release layer.
Particularly, the silicone oil release layer 8 and the bottom paper are sequentially covered on the outer surface of the non-setting adhesive layer.
In particular, a peel opening is prepared at the edge of the releasable layer.
In particular, the fixed link and the separable link are separated by a die cutting link and a dotted line on the surface paper.
In particular, the releasable layer on the back of the facestock may be a single layer, or a two to three ply composite structure.
The utility model discloses an advantage and effect: the back of the common paper is provided with the ultrathin separable layer with the separable function in a coating mode, so that the structure of the three-layer logistics label is simpler, the processes of die cutting waste discharge and the like in the manufacturing process are easy to control, the production efficiency is high, and the preparation process is safe and stable. The consumption of paper or film in the middle layer is saved, the resource waste is reduced, and the product is more environment-friendly. The peeling force is uniformly improved, and the labeling is convenient; the label is convenient and direct to use for the logistics label, and has wide application range, convenience and rapidness.
Drawings
FIG. 1 is a schematic structural diagram of the present invention
FIG. 2 is a schematic structural diagram of embodiment 1 of the present invention
FIG. 3 is a schematic structural diagram of embodiment 2 of the present invention
Fig. 4 is a schematic structural diagram of embodiment 3 of the present invention
FIG. 5 is a schematic structural diagram of embodiment 4 of the present invention
The reference numerals include:
the paper comprises a surface paper 1, a separable layer 2, separable paper 3, a fixed joint 4, a separable joint 5, a stripping opening 6, a non-setting adhesive layer 7, a silicone oil release layer 8, a die-cutting separation joint dotted line 9 and a bottom paper 10.
Detailed Description
Self-adhesive labels generally comprise a laminated structure of a face material, a film layer, an adhesive and a backing paper. Wherein:
the face paper is a bearing body of the content of the self-adhesive label, and the back of the face paper is coated with an adhesive. The facial tissue can adopt a plurality of materials, and the facial tissue is generally divided into coated paper, transparent polyvinyl chloride (PVC), electrostatic polyvinyl chloride (PVC), Polyester (PET), laser paper, temperature-resistant paper, polypropylene (PP), Polycarbonate (PC), kraft paper, fluorescent paper, gold-plated paper, silver-plated paper, decomposed paper, aluminum foil paper, fragile anti-counterfeiting paper, beautiful pattern paper, cloth mark Tai Wei Ke/nylon paper, pearlescent paper, sandwich coated paper and thermal-sensitive paper.
The membranous layer material includes: transparent Polyester (PET), translucent Polyester (PET), transparent oriented polypropylene (OPP), translucent oriented polypropylene (OPP), transparent polyvinyl chloride (PVC), bright white polyvinyl chloride (PVC), dull white polyvinyl chloride (PVC), decomposed paper, bright gold (silver) polyester, dull gold (silver) polyester.
The adhesive material includes: the adhesive ensures excessive adhesion of the base paper and the surface paper on one hand, and ensures that the surface paper can have firm adhesion with an adhered object after being stripped on the other hand. The adhesive is universal super-adhesive, universal strong-adhesive, refrigerated food strong-adhesive, universal re-uncovering and fiber re-uncovering.
The base paper material includes: the base paper is also called release paper, the surface of the base paper is low in surface performance and non-stick, and the base paper has an isolation effect on the adhesive, so that the base paper is used as an attachment of the surface paper to ensure that the surface paper can be easily peeled from the base paper. Commonly used base papers are white, blue, yellow glassine (glassine) or garlic skin paper (onion), kraft paper, Polyester (PET), coated paper, Polyethylene (PE).
The method for manufacturing the adhesive label generally comprises the following steps:
1) and (4) making surface paper, namely selecting the surface paper capable of being written and printed, and coating an adhesive on the back surface of the surface paper to prepare a non-drying adhesive layer.
2) The method comprises the steps of preparing base paper, namely selecting a silicone oil coating and a PP film to prepare the base paper, coating an adhesive on the surface of the silicone oil coating of the base paper to prepare an adhesive layer, and generally arranging a shading mark on the bottom surface of the PP film of the base paper.
3) And (3) making a label, namely combining the adhesive sticker layer on the back surface of the face paper and the adhesive sticker layer coated on the surface of the base paper to obtain a finished product.
The principle of the utility model lies in that, as shown in the attached figure 1, separable paper 3 comprises separable layer 2 between facial tissue 1 and the back cover not dry glue layer 7, and separable paper 3 adopts the coating mode, but separable layer 2 forms after 1 back coating drying of facial tissue or UV solidification.
In the above, the back of the surface paper 1 is coated with water-soluble polymer and ultrafine mineral powder suspension or PVA solution emulsion, and dried to form the separable layer 2, and the separable layer 2 is ultrathin stone paper, and has release, printing and isolation effects.
In the above, the back of the surface paper 1 is coated with a release agent, dried and cured, then coated with water-soluble polymer and ultrafine mineral powder suspension, and dried and cured to form the separable layer 2, wherein the separable layer 2 is the high-transparency ultrathin stone paper.
In the foregoing, the back of the face paper 1 is coated with the UV resin and the ultrafine mineral powder suspension, and the ultra-thin stone paper separable layer 2 having the release isolation function is formed after UV curing.
In the above, the back of the surface paper 1 is coated with a release agent, dried and cured, and then coated with a UV resin and an ultrafine mineral powder suspension, and the UV resin is cured to form a separable layer 2, wherein the separable layer 2 is a high-transparency ultrathin stone paper.
The present invention will be further explained with reference to the drawings and examples.
Example 1: the bottomless single-layer separable logistics label is shown in figure 2, and the front surface of the face paper 1 is covered with a silicone oil release layer 8.
In the embodiment of the utility model, the preparation method is: the front and back sides of the surface paper 1 are printed with required pictures and texts, and the back side is printed with printer identification images as required, such as identifiable black lines; then, the silicone oil release layer 8 is coated on the surface of the surface paper 1, the back of the surface paper 1 is coated with glue, then die-cut, processed and formed, rolled and self-compounded, and the bottomless single-layer separable logistics label is prepared. When in use, the bottomless single-layer separable logistics label is directly labeled after being printed, the base paper 10 needing to be peeled is not needed, and waste generation is reduced. When printing, a backing paper-free label printer on the current market is required.
Example 2: the separable logistics label is a single-layer separable logistics label with a bottom, and as shown in figure 3, a silicone oil release layer 8 and a bottom paper 10 are sequentially covered on the outer surface of a self-adhesive layer 7.
In the embodiment of the utility model, the preparation method is: after the front and back sides of the surface paper 1 are printed with needed pictures and texts, one side of the non-drying glue layer 7 on the back side of the surface paper 1 is compounded with the base paper 10 coated with the silicone oil release layer 8, and then the single-layer separable logistics label with the bottom is prepared by die cutting and processing molding. When in use, the base paper label is peeled off after being printed by a printer.
Example 3: as shown in fig. 4, a peel-off port 6 is prepared at the edge of the detachable layer 2.
In the above, the separable connector 5 is coated with a release agent, and becomes a stripping opening when being made into a label, so that the separable connector is completely anti-sticking and is convenient to strip.
In the foregoing, the preparation method of the peeling opening 6 is: coating a release agent on the edge of the separable layer 2 or the fixed link 4, or adopting a UV series release agent comprising UV silicone oil or low surface energy gloss oil and carrying out UV light curing; or, adopting water-based series including water-based silicone oil and water-based release agent, and drying by infrared.
Example 4: as shown in fig. 5, the fixed link 4 and the separable link 5 are separated from each other by a die-cut separation link broken line 9 on the face tissue 1.
In the embodiment of the present invention, the separable paper 3 has the functions of printing, isolation and separation or peeling, and can be wholly or partially separated. After the separable paper 3 is prepared into a label to be labeled, one label can contain a plurality of fixed links 4 and a plurality of separable links 5 which are matched and combined, wherein the separable links 5 can be stripped, and the final information identification and transfer functions are achieved.
The utility model discloses in, separable paper includes facial tissue 1 and the two-layer structure of separable layer 2 at its back, and facial tissue 1 can be peeled off from separable layer 2, and perhaps, separable layer 2 can be peeled off from facial tissue 1. The facial tissue 1 can be printed or printed with pictures and texts, and the separable layer 2 attached to the back surface of the facial tissue 1 can be a single layer and has the functions of printing and isolating, and can also be a two-time to three-time ultrathin layer composite so as to have the functions of printing, isolating and stripping.
In the utility model, the area of the separable layer 2 is smaller than that of the separable paper 3, and after the back of the separable layer 2 is glued with glue and used as a label, the local part of the label can be peeled off or separated; the area of the separable layer 2 is equal to that of paper, the separable layer is pasted on the surface of an object as a label after the back face is coated with glue, and the whole label can be peeled off, namely the whole label can be separated. The application comprises the following steps: anti-counterfeiting, logistics, mail express, book sales, online shopping and other labels.
The utility model discloses in, as the label after 3 rubber coatings of separable paper, can contain one or more fixed part and a plurality of separable part collocation, or call for fixed antithetical couplet 4 and separable antithetical couplet 5, reach final information sign and transfer function.
The utility model discloses in, but separation layer 2 is really exactly the stone paper of one deck economic environmental protection. After the back of the separable paper 3 is glued and then used as a label to label, the area of the separable layer 2 is smaller than that of the separable paper 3, and the local part of the label can be peeled off, namely the local part of the label can be separated; the separable layer 2 has an area equal to that of the paper, and the label as a whole can be peeled off, that is, the entire label can be separated.
The utility model discloses in, but adopt local or full width coating to form separable layer 2, have from type, isolation and printing function simultaneously moreover. The separable layer 2 is extremely thin and is tightly integrated with the printable layer, and the visual and tactile effects are single layers in both the bottomed and bottomless modes, which can be referred to as a single-layer separable logistics label.
The utility model discloses in, but 2 thickness of separable layer are less than 10um, and even ultra-thin to 0.5 ~ 2um, material consumption and demand are less than whole full width 25 ~ 100 um's traditional intermediate level far away.
The present invention is not limited to the above embodiments, and the present specification is intended to help readers to understand the contents of the present invention and to implement the present invention, and thus the protection scope of the present invention cannot be limited by the contents. All the substitutions and modifications made according to the spirit of the above main technical scheme are covered in the protection scope of the claims of the present application.
Claims (6)
1. Intermediate layer commodity circulation label can be left in environmental protection, its characterized in that, separable paper (3) comprise facial tissue (1) and back cover separable layer (2) between not dry glue layer (7), and separable layer (2) thickness is less than 10um, and is ultra-thin to 0.5 ~ 2um even.
2. The environmentally friendly detachable interlayer logistics label of claim 1 wherein the face side of the facestock (1) is covered with a silicone release layer (8).
3. The environmentally friendly detachable interlayer logistics label of claim 1 wherein the non-drying adhesive layer (7) is coated with a silicone release layer (8) and a backing paper (10) in sequence.
4. The eco-friendly detachable interlayer flow label according to claim 1, wherein a peel-off port (6) is prepared at an edge of the detachable layer (2).
5. The environmentally friendly detachable intermediate layer flow label according to claim 1, wherein the fixed link (4) and the detachable link (5) are separated from each other on the face paper (1) by a die-cut link dotted line (9).
6. The environmentally friendly detachable interlayer logistics label of claim 1 wherein the detachable layer (2) on the back of the facestock (1) is a single layer or a two to three layer composite structure.
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN201920588230.2U CN210039404U (en) | 2019-04-26 | 2019-04-26 | Environment-friendly separable interlayer logistics label |
Applications Claiming Priority (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN201920588230.2U CN210039404U (en) | 2019-04-26 | 2019-04-26 | Environment-friendly separable interlayer logistics label |
Publications (1)
| Publication Number | Publication Date |
|---|---|
| CN210039404U true CN210039404U (en) | 2020-02-07 |
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| Application Number | Title | Priority Date | Filing Date |
|---|---|---|---|
| CN201920588230.2U Active CN210039404U (en) | 2019-04-26 | 2019-04-26 | Environment-friendly separable interlayer logistics label |
Country Status (1)
| Country | Link |
|---|---|
| CN (1) | CN210039404U (en) |
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- 2019-04-26 CN CN201920588230.2U patent/CN210039404U/en active Active
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Denomination of utility model: Environmentally friendly detachable middle layer logistics label Effective date of registration: 20231227 Granted publication date: 20200207 Pledgee: Industrial Bank Co.,Ltd. Shanghai Branch Pledgor: SHANGHAI AIJUN MACHINERY Co.,Ltd.|SHANGHAI AKO PRINTING TECHNOLOGY CO.,LTD. Registration number: Y2023310000938 |