CN109584710B - Ink-markable label and container with markable label - Google Patents

Abstract

The invention relates to a label capable of being marked by ink, which comprises a substrate and an ink layer printed on the substrate; the surface of the ink layer forms a net-shaped structure, the net-shaped ink layer and the pen point ball bearings can drive the pen point ball bearings to rotate through friction, and the net-shaped ink layer retains pen ink separated from the ball bearings; the proportion of the ink layer is 50% of varnish, 45% of transparent fine sand pigment and 5% of drying auxiliary agent; the user directly tries to make personalized marks on the label by using the pen.

Description

Ink-markable label and container with markable label

Technical Field

The invention belongs to the field of labels, and particularly relates to an improvement of a label printing structure and a label ink layer on a packaging label container.

Background

For the film labels, ink pens such as ball pens, sign pens and fountain pens cannot be marked due to the smooth surface of the material, and can be marked only by special pens such as marking pens; this is because the printed ink layer is not water-compatible and the ink cannot be made to adhere to the surface of the film label. The reason is that the ink can not stay on the label to form handwriting, and for a ball-point pen and a common gel pen, even a smooth material surface or an ink layer surface can not drive a ball in a pen point to roll, and the ink can not be discharged. In many cases, it is desirable to mark the label directly to facilitate subsequent processing.

Disclosure of Invention

The invention provides a novel label capable of being marked by ink, which comprises a base material and a first ink layer printed on the base material and used for marking label information; forming a second ink layer with a net structure on the surface of the first ink layer, wherein the second ink layer can be driven to rotate by the friction of the second ink layer and the pen point ball, and the second ink layer retains pen ink separated from the ball; the second ink layer comprises 50% of varnish, 45% of transparent fine sand pigment and 5% of drying auxiliary agent; the second ink layer is transparent and can not shield the content information of the first ink layer.

The printing ink is prepared by mixing 50% of ink adjusting oil, 45% of transparent fine sand pigment and 5% of drying aid, a second ink layer is formed on a printing stock (base material) through printing plate treatment, the surface friction force of the ink layer printed by the transparent fine sand pigment is increased during writing, the second ink layer on the surface of the ink layer can generate friction, and the friction force can drive a pen point to roll so that the ink can be output from a pipeline of a pen. Meanwhile, the microscopic structure of the surface of the printing ink with fine sand pigment tone quality is rough, so that the printing ink has better affinity with the printing ink. Meanwhile, the mesh holes can also retain ink, so that the handwriting of pens and the like with large ink output quantity can be cleaned more obviously, and the effect that the ink stays on the printing ink layer is achieved. The comprehensive technical effect of the scheme makes writing on the label possible.

Further, the second ink layer is formed by transferring a printing plate with a reticulate pattern to the substrate.

Further, the label comprises a marking area and a non-marking area, and the surface of the marking area is covered with the second ink layer.

Furthermore, the second ink layer protrudes out of the surface of the base material, and is interwoven with the base material surface.

Further, the transparent fine sand pigment is a granular mineral pigment.

Further, the surface of the substrate is a smooth printing plane.

Similarly the invention also provides a packaging container with a markable label, the packaging container having a surface to which the label can be applied, the label being applied to the surface of the container; the label comprises a base material and a first ink layer printed on the base material and used for marking label information; the label comprises a marking area and a non-marking area, wherein the surface of the marking area is provided with a first ink layer protruding out of the surface of the marking area; forming a second ink layer with a net structure on the surface of the first ink layer, wherein the second ink layer can be driven to rotate by the friction of the second ink layer and the pen point ball, and the second ink layer retains pen ink separated from the ball; the second ink layer comprises 50% of varnish, 45% of transparent fine sand pigment and 5% of drying auxiliary agent.

Drawings

Fig. 1 is a schematic cross-sectional view of a markable label.

Fig. 2 is a schematic diagram of a top view of a markable tag.

Fig. 3 is a schematic view of a packaging container with a markable label, wherein a microscopic magnification of the ink layer on the surface of the label is included.

FIG. 4 is a schematic view of a price tag and a micro-scale structure of an ink layer on the surface thereof according to the second embodiment.

FIG. 5 is a schematic cross-sectional view of the second label according to the embodiment.

Detailed Description

Example one

Referring to the schematic cross-sectional structures of the labels shown in fig. 1 to 4, the label shown in the cross-sectional structure of fig. 1 includes a two-layer structure, the first layer is a base layer 10 disposed at the bottom, the second layer is an ink layer 11 printed on a substrate, the substrate 10 optionally includes plastic materials such as polyethylene, polypropylene, polyvinyl chloride, paper, etc., and the surface of the substrate is smooth and is not easily marked by a pen or a pen with balls.

In fig. 2, the ink layer 14 is attached to the surface of the substrate 10, the surface of the ink layer 14 forms a network structure, the network structure includes a plurality of ink lines 11 extending parallel to each other along a first direction, and further includes a plurality of ink lines 12 extending along a second direction, and the two sets of ink lines are interwoven to form the ink layer 14.

The ink lines 11, 12 have a certain width, and the cross-section of the ink lines 11, 12 has a certain thickness, so that the surrounding structure of the ink lines protrudes from the surface of the substrate 10 (refer to fig. 1), and since the ink lines 11, 12 are interlaced with each other, a plurality of ink lines 11, 12 surround a mesh structure 13 capable of retaining writing ink, and the mesh structure 13 is substantially rectangular in fig. 2, it is obvious that changing the extending direction of the ink lines 11, 12 can change the shape of the mesh 13 into other shapes known to those skilled in the art.

The ink layer 10 is formed by printing ink with special configuration and then drying, and the proportion of the special ink is 50% of varnish, 45% of transparent fine sand pigment and 5% of drying auxiliary agent. The above ratio enables the fine sand pigment to be fixed on the smooth surface of the substrate 10, and the rough surface of the ink layer 14 is formed after the fine sand pigment is dried. The surface roughness of the ink layer 14 can be close to white paper used for writing due to the existence of the fine sand pigment, so that the pen point ball of a ball-point pen or a sign pen can roll smoothly to discharge ink due to the friction force under the roughness, and the pen can be accommodated in the mesh 13 formed on the surface of the ink layer 14 due to large ink discharge amount.

In fig. 3, the proportion of the ink layer 14 is enlarged in order to clearly express the printing structure of the ink layer, and many tiny fine sand pigments which are transparent per se and have pigment mineral particles attached to the surface of the substrate 10 can be seen in the ink lines 11 and 12, and actually, the fact that the surface of the ink layer 13 is not flat due to the existence of the mineral particles provides a basis for having a larger friction coefficient.

In fig. 3, a packaging container 2 with a markable label is also provided, said packaging container 2 having a surface 20 to which the label can be applied, such packaging container 2 being a food package, a drink package, a consumer goods package, an industrial goods package, here illustrated as a normal drink bottle. The beverage bottle is provided with a bottle body, a bottle mouth and a bottle cap, and the label is pasted on the surface of the bottle body of the beverage bottle.

The label comprises a marking zone 22 and a non-marking zone 21, the non-marking zone 21 being a zone for printing the identifying content of the packaging container, such as a product trademark, etc., the marking zone 22 being a surface zone reserved for writing marks. The surface of the marking area 22 is provided with an ink layer 14 protruding from the surface of the marking area; the surface of the ink layer 14 forms a net-shaped structure, and the net-shaped ink layer 14 and the ball of the pen point can be driven to rotate by friction.

Similarly, the label has a label area including a substrate 10 and an ink layer 14 printed on the substrate, and the substrate may optionally include a plastic material such as polyethylene, polypropylene, polyvinyl chloride, and the like. The ink layer is formed by printing ink with 50% of varnish, 45% of transparent fine sand pigment and 5% of drying auxiliary agent on the base material 10 through a plate printing mode, and the ink layer with the ink lines 12 and 11 interwoven is formed, and the ink layer 14 has high surface roughness and can increase the friction force of the surface of the ink layer.

The user can write a distinctive mark, a symbol, such as an after-market telephone, a user name and address, etc., on the packaging of the product in the marking area 22.

The net-like ink layer 14 is formed by transferring a printing plate with a net-like pattern onto the substrate. Generally, the surface of the printed label is printed with ink by a printing roller (not shown in the figure), the printing roller rotates in the printing process between unwinding and winding of the printing device, a part of the printing roller is immersed in an ink tank filled with the ink, the surface of the printing roller is connected with an ink scraper, and the ink is transferred to the label paper after being scraped. The transfer printing plate is sleeved on the surface of the stick, and the patterns printed with the printing ink can be replaced in a mode of replacing the transfer printing plate. After printing, the ink layers protrude out of the surface of the base material, and the ink layers are mutually interwoven on the surface of the base material.

In summary, the ink adjusting oil 50%, the transparent fine sand pigment 45% and the drying aid 5% are prepared into special ink, a mesh ink layer is formed on a printing stock (substrate) through printing plate treatment, when writing, due to the fact that the surface friction force of the ink layer printed by the transparent fine sand pigment is increased, the mesh ink layer on the surface of the ink layer can generate friction, and the friction force can drive a pen point to roll so that the ink can be output from a pipeline of a pen. Meanwhile, the microscopic structure of the surface of the printing ink with fine sand pigment tone quality is rough, so that the printing ink has better affinity with the printing ink. Meanwhile, the mesh holes can also retain ink, so that the handwriting of pens and the like with large ink output quantity can be cleaned more obviously, and the effect that the ink stays on the printing ink layer is achieved.

Example two

The invention provides another improvement on the first embodiment, and the label shown in fig. 4 and 5 comprises a substrate layer 10 arranged on the bottom, the substrate optionally comprises a plastic material such as polyethylene, polypropylene, polyvinyl chloride and the like, and the surface smoothness of the substrate is not easy to generate writing marks by a pen or a harbor coin with balls. The first ink layer 141 printed on the substrate is information of the label itself, which may be a commercial sign 31 of the commodity itself or description information, etc., the second ink layer 14 is formed on the surface of the first ink layer 141, the second ink layer 14 is printed on the substrate by plate printing with ink having a mixing ratio of 50% varnish, 45% transparent fine sand pigment, 5% drying aid, and an ink layer having ink lines 32, 34 interlaced with each other is formed, and the ink layer has a high surface roughness and can increase the friction force on the surface thereof.

Meanwhile, the fine sand pigment has a transparent characteristic, so that the content information of the first ink layer 141 is not blocked, and the second ink layer 14 allows direct writing. Thus, the user can directly use the pen to write on the label paper with the content without intentionally distinguishing the marked area from the unmarked area.

Similarly, the second ink layer 14 is attached to the surface of the first ink layer 141, the surface of the second ink layer 14 forms a mesh structure, the mesh structure includes a plurality of ink lines 32 extending parallel to each other along the first direction, and further includes a plurality of ink lines 34 extending along the second direction, and the two sets of ink lines are interlaced together to form the ink layer 14. Except that the grid holes 33 are diamond-shaped in this embodiment, the first embodiment is rectangular but both shapes can ensure the ability of the grid holes to retain ink.

Compared with the prior art, the invention has the advantages that the ink with rough surface is printed on the surface of the label by the ink with special proportion, on one hand, the friction force of the balls is increased, so that the ink can flow out, on the other hand, the affinity between the ink surface and the writing ink is enhanced, so that the writing ink is easier to attach, meanwhile, the ink lines of the reticular ink layer are mutually interwoven, and the holes capable of supplying the main flow of the ink are formed among the ink lines, so that the ink can be retained, and the pen with large ink outlet amount has better writing effect.

Claims (9)

1. A label capable of being marked by ink, which is characterized by comprising a substrate and a first ink layer printed on the substrate for marking label information; forming a second ink layer with a net structure on the surface of the first ink layer, wherein the second ink layer can be driven to rotate by the friction of the second ink layer and the pen point ball, and the second ink layer retains pen ink separated from the ball; the ink proportion of the second ink layer is 50% of varnish, 45% of transparent fine sand pigment and 5% of drying auxiliary agent; the second ink layer is transparent and can not shield the content information of the first ink layer.

2. The ink markable label according to claim 1 wherein the second ink layer is formed by transferring a textured printing plate to the substrate.

3. The ink markable label according to claim 1 comprising a marking region and a non-marking region, the marking region surface covering the second ink layer.

4. The ink markable label according to claim 1 wherein the second ink layer projects from the substrate surface and is interlaced with the substrate surface.

5. The ink markable label according to claim 1 wherein the transparent fine sand pigment is a particulate mineral pigment.

6. The ink markable label according to claim 1 wherein the substrate surface is a smooth printed surface.

7. A packaging container having a markable label, characterized in that the packaging container has a surface to which the label is applied, the label being applied to the container surface; the label comprises a base material and a first ink layer printed on the base material and used for marking label information; the label comprises a marking area and a non-marking area, wherein the surface of the marking area is provided with a first ink layer protruding out of the surface of the marking area; forming a second ink layer with a net structure on the surface of the first ink layer, wherein the second ink layer can be driven to rotate by the friction of the second ink layer and the pen point ball, and the second ink layer retains pen ink separated from the ball; the second ink layer comprises 50% of varnish, 45% of transparent fine sand pigment and 5% of drying auxiliary agent.

8. The packaging container with the markable label according to claim 7 wherein the web is formed of interlaced ink lines, the web having apertures defining inwardly recessed ink retention apertures.

9. The packaging container with a markable label according to claim 7 wherein the second ink layer is formed by transfer printing of a textured printing plate onto the substrate.

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