CN110349489B - Hot stamping character label - Google Patents

Abstract

A thermoprinting character label comprises a carrier layer, a group of identification parts arranged on the carrier layer, a group of filling parts arranged on the carrier layer and positioned in the identification parts, and a thermoprinting layer arranged on the identification parts and the filling parts. The identification part comprises a first transparent layer, a metal ink layer, a color reflecting layer and a first white substrate layer which are sequentially laminated from a carrier layer to a hot stamping layer. The filling part comprises a second transparent layer, a digital printing layer and a second white substrate layer which are sequentially laminated from the carrier layer to the hot stamping layer. The metallic ink layer is formed on the first transparent layer in stripes printed at a mutual interval. The color value of the color reversing layer is different from that of the metal ink layer and is coated on the metal ink layer. The character label provided by the invention can increase the layering between the metal ink layer and the color reversing layer, so that the identification degree of the character label is increased, and the aesthetic degree of the character label is also increased.

Description

Hot stamping character label

Technical Field

The invention belongs to the field of label transfer application, and particularly relates to a thermoprinting character label.

Background

In order to make the product have vivid labels, the surface of many products is coated with a hot stamping label, and the hot stamping label is to transfer the label on the surface of the product shell at a certain temperature. Some existing labels, especially character labels such as numbers or letters, are generally planar in design, have only one color, are not attractive enough, and are not high in identification degree.

Disclosure of Invention

In view of the above, the present invention provides an attractive and highly identified hot stamping character label to meet the market demand.

A thermoprinting character label comprises a carrier layer, a group of identification parts arranged on the carrier layer, a group of filling parts arranged on the carrier layer and positioned in the identification parts, and a thermoprinting layer arranged on the identification parts and the filling parts. The identification part comprises a first transparent layer, a metal ink layer, a color reflecting layer and a first white substrate layer which are sequentially laminated from a carrier layer to a hot stamping layer. The filling part comprises a second transparent layer, a digital printing layer and a second white substrate layer which are sequentially laminated from the carrier layer to the hot stamping layer. The metallic ink layer is formed on the first transparent layer in stripes printed at a mutual interval. The color value of the color reversing layer is different from that of the metal ink layer and is coated on the metal ink layer. The digital printing layer is printed on the second transparent layer. The first white substrate layer and the second white substrate layer are coated on the metal ink layer and the digital printing layer simultaneously, and the thermoprinting layer is printed on the first white substrate layer and the second white substrate layer simultaneously.

Further, the carrier layer is made of a polyethylene terephthalate-based plastic.

Further, the color of the color reversing layer is darker than the color of the metal ink layer.

Further, the extending direction of the stripes formed by the metal ink layer is perpendicular to or intersected with the extending direction of the metal ink layer.

Further, the digital printing layer is one or more of Chinese characters, numbers and two-dimensional codes.

Further, the color reflecting layer is formed by digital ink printing.

Further, the first white substrate layer and the second white substrate layer are made of the same material and are coated on the color reflecting layer and the digital printing layer simultaneously.

Further, the first white substrate layer and the second white substrate layer are made of different materials and are respectively coated on the color reflecting layer and the digital printing layer.

Further, the first transparent layer and the second transparent layer are coated on the carrier layer using the same glue material.

Further, the color of the digital printing layer is darker than the color of the second white substrate layer.

Compared with the prior art, the invention provides the hot stamping character label which divides the whole character label into the identification part and the filling part, and different process procedures are used for manufacturing the identification part and the filling part. And the identification part and the filling part are respectively manufactured by printing different materials on the first transparent layer and the second transparent layer which are coated by the same material by using different processes. Specifically, the identification part is formed by sequentially laminating a metal ink layer, a color reflecting layer and a first white substrate layer from a carrier layer to a thermoprinting layer, wherein the metal ink layer is formed on the first transparent layer in a stripe shape printed at intervals, the color value of the color reflecting layer is different from that of the metal ink layer and is coated on the metal ink layer, the digital printing layer of the filling part is directly printed on the second transparent layer, and finally, the first white substrate layer and the second white substrate layer which are made of the same material or different materials are coated simultaneously, and finally, the thermoprinting layer is coated on the first white substrate layer and the second white substrate layer. Since the recognition part is formed on the first transparent layer in a stripe shape printed at a mutual interval using a metal ink layer, and then the anti-color layer is printed on the metal ink layer while the anti-color layer is embedded between the stripes formed by the metal ink layer, thereby forming a rim with color contrast. In addition, due to the existence of the first transparent layer and the second transparent layer, the first transparent layer and the second transparent layer are made of glue, the metal ink layer, the anti-color layer and the digital printing layer can be prevented from being destroyed, layering between the metal ink layer and the anti-color layer can be increased, the identification degree of the character label is increased, and the attractive degree of the character label is also increased.

Drawings

Fig. 1 is a schematic top view of a thermal print label according to the present invention.

Fig. 2 is a schematic cross-sectional structure of the thermal printer label of fig. 1 to illustrate the metallic ink layer.

Fig. 3 is a schematic cross-sectional structure of the thermal printer label of fig. 1 to illustrate the reverse color layer.

Detailed Description

Specific embodiments of the present invention are described in further detail below. It should be understood that the description herein of the embodiments of the invention is not intended to limit the scope of the invention.

Fig. 1 to 3 are schematic structural views of a hot stamping character label according to the present invention. The hot stamping character label comprises a carrier layer 10, a group of identification parts 20 arranged on the carrier layer 10, a group of filling parts 30 arranged on the carrier layer 10 and positioned in the identification parts 20, and a hot stamping layer 40 arranged on the identification parts 20 and the filling parts 30. It is conceivable that the thermal printer label further includes other functional modules, such as a trademark module, a two-dimensional code for providing information, etc., which may be directly disposed on the carrier layer 10 or printed on the filling portion 30, but should be a technology known to those skilled in the art, and will not be repeated herein.

The carrier layer 10 is used for placing the identification portion 20 and the filling portion 30, i.e. for arranging the identification portion 20 and the filling portion 30 before the thermoprinting character label is transferred onto a target object such as a garment, an apparatus, etc., so as to facilitate manufacturing and transportation. The carrier layer 10 may be made of a material such as polyethylene terephthalate (PET) that facilitates detachment from the identification portion 20 and the filling portion 30. The carrier layer 10 is usually a planar plate, but may be a plate-like structure having irregularities, as required in practice.

The identification portion 20 and the filling portion 30 are manufactured continuously at the same time, and the filling portion 30 is manufactured instead of completely manufacturing the identification portion 20, but for explanation, the constituent structures of the identification portion 20 and the filling portion 30 are explained separately. As shown in fig. 2, in this embodiment, the thermoprinting stamp label is "0". Therefore, the identification portion 20 is annularly positioned on the outer circumference of the "0", and the filling portion 30 is filled in the identification portion 20, that is, "0". The identification part 20 includes a first transparent layer 21, a metallic ink layer 22, a color-reflecting layer 23, and a first white backing layer 24, which are laminated in this order from the support layer 10 toward the thermoprinting layer 40. The first transparent layer 21 may be made of transparent glue, such as polypropylene. The first transparent layer 21 is first coated directly on the carrier layer 10 for increasing the elasticity of other structural layers, such as a metallic ink layer 22, a color-reversing layer 23, etc. Of course, when the first transparent layer 21 is coated, the coated shape thereof may be completed according to the actual situation of the printer. As for the printer itself, a control program for controlling the coating shape of the printer head, a printing mechanism, etc. should be a prior art, and will not be described in detail here. The metallic ink layer 22 is printed on the first transparent layer 21 and is ring-shaped. Since the metal itself has a color such as gold of copper powder, silver of silver powder, etc., it can play a role of recognition. In this embodiment, the metallic ink layer 22 includes copper powder. The metallic ink layer 22 is formed on the first transparent layer 21 in spaced apart print stripes. The extending direction of the stripes may be perpendicular to the extending direction of the metallic ink layer 22 or intersect the extending direction of the metallic ink layer 22. The color-reversing layer 23 is coated on the metallic ink layer 22, and the width of the color-reversing layer 23 in the extending direction perpendicular to the metallic ink layer 22 and the width of the metallic ink layer 22 in the extending direction thereof are formed. When the color-reflecting layer 23 is coated on the metal ink layer 22, the color-reflecting layer 23 is embedded between the spaced stripes formed by the metal ink layer 22, and the color value of the color-reflecting layer 23 is different from the color value of the metal ink layer 22, specifically, the color of the color-reflecting layer 23 is darker than the color of the metal ink layer 22, so that the color-reflecting layer 23 and the metal ink layer 22 are mutually set off, and the recognition effect of the recognition portion 20 can be enhanced. The color value refers to a color value corresponding to one color in the RGB color mode. For example, the red color corresponds to (255, 0) in the RGB color mode, the green color corresponds to (0, 255, 0) in the RGB color mode, and the blue color corresponds to (0, 255) in the RGB color mode. The color-reverse layer 23 is typically made of black ink. The black ink may be a homogeneous mixture of colored materials such as carbon black, binders, fillers, additives, etc., which are known in the art and will not be described in detail herein. The first white backing layer 24 is made of white ink, which is coated on the counter layer 23 to avoid interference of other color layers such as the thermo-print layer 40 or the color of a material layer such as clothing to the counter layer 23.

The filling layer 30 includes a second transparent layer 31, a digital printing layer 32, and a second white backing layer 33, which are laminated in this order from the carrier layer 10 toward the thermoprinting layer 40. The second transparent layer 31 may be made of the same material as the first transparent layer 21, or may be spray-printed on the carrier layer 10 simultaneously with the first transparent layer 21. The second transparent layer 31 has the same function as the first transparent layer 21 in order to increase the elasticity of the ink so that the character label can be deformed with a material such as clothing without being damaged when in use. The digital printing layer 32 may be one or more of Chinese characters, numbers and two-dimensional codes, and is printed on the second transparent layer 31 by a digital printer. The digital print layer 32 may be printed with digital ink. The color value of the digital printing layer 32 is different from the color value of the second white substrate layer 33, specifically, the color of the digital printing layer 32 is darker than the color of the second white substrate layer 33, and the digital printing layer 32 uses gray digital ink, so that the digital printing layer 32 can be protruded from the second white substrate layer 33, thereby facilitating identification. In this embodiment, the digital printing layer 32 is a character, such as a strong character, a kick character, a wild character, etc. In fig. 2 and 3, a shadow layer is used instead for ease of illustration only. The second white substrate layer 33 may be made of the same material or different materials from the first white substrate layer 24, and in this embodiment, the second white substrate layer 33 and the first white substrate layer 24 are coated on the color reflecting layer 23, the digital printing layer 32 and the second transparent layer 31 at the same time.

The thermoprinting layer 40 is coated on the other side of the identification portion 20 and the filling portion 30 with respect to the carrier layer 10, which is used for bonding to materials such as clothing, machine settings, etc. when warming up. The thermoprinting layer 40 may be made of a hot melt adhesive and coated on the identification portion 20 and the filling portion 30. When it is desired to transfer to a material, the hot stamping layer 40 is melted by heating to adhere to the material. After the carrier layer 10 is adhered to the material, the carrier layer is directly peeled off from the recognition portion 20 and the filling portion 30, so that the transfer of the character label, i.e., the printing of the character "0" on the material can be completed.

Compared with the prior art, the invention provides the hot-stamping character label, which divides the whole character label into the identification part 20 and the filling part 30, and uses different process procedures to manufacture the identification part 20 and the filling part 30. The identification part 20 and the filling part 30 are manufactured by printing different materials on the first transparent layer 21 and the second transparent layer 31 coated with the same material and the different processes respectively. Specifically, the identification part 20 is formed by stacking a metal ink layer 22, a color reflecting layer 23 and a first white substrate layer 24 sequentially from the carrier layer 10 towards the thermoprinting layer 40, the metal ink layer 22 is formed on the first transparent layer 21 in stripes printed at intervals, the color reflecting layer 23 is different from the color of the metal ink layer 22 and is coated on the metal ink layer 22, the digital printing layer 32 of the filling part 30 is directly printed on the second transparent layer 31, finally, the first white substrate layer 24 and the second white substrate layer 33 made of the same material or different materials are coated simultaneously, and finally, the thermoprinting layer 40 is coated on the first white substrate layer 24 and the second white substrate layer 33. Since the recognition part 20 is formed on the first transparent layer 21 using the metallic ink layer 22 in stripes printed at intervals, and then the color-reflecting layer 23 is printed on the metallic ink layer 22 while the color-reflecting layer 23 is embedded between the stripes formed by the metallic ink layer 22, it is possible to form the edge stripe having color contrast. In addition, due to the first and second transparent layers 21 and 31, and the first and second transparent layers 21 and 31 are made of glue, the metal ink layer 22, the color reflecting layer 23 and the digital printing layer 32 can be prevented from being destroyed, and the layering between the metal ink layer 22 and the color reflecting layer 23 can be increased, so that the recognition degree of the character label is increased, and the aesthetic degree of the character label is also increased.

The above is only a preferred embodiment of the present invention and is not intended to limit the scope of the present invention, and any modifications, equivalent substitutions or improvements within the spirit of the present invention are intended to be covered by the claims of the present invention.

Claims (10)

1. The thermoprinting character label is characterized by comprising a carrier layer, a group of identification parts arranged on the carrier layer, a group of filling parts arranged on the carrier layer and positioned in the identification parts, and a thermoprinting layer arranged on the identification parts and the filling parts, wherein the identification parts comprise a first transparent layer, a metal ink layer, a color reversing layer, a first white substrate layer and a second transparent layer, the second transparent layer, a digital printing layer and a second white substrate layer are sequentially arranged from the carrier layer towards the thermoprinting layer in a laminated mode, the metal ink layer is formed on the first transparent layer in stripes which are printed at intervals, the color value of the color reversing layer is different from that of the metal ink layer and is coated on the metal ink layer and is embedded between the interval stripes formed by the metal ink layer, the digital printing layer is printed on the second transparent layer, and the first white substrate layer and the second white substrate layer are simultaneously coated on the color reversing layer and the digital printing layer and the first white substrate layer.

2. The thermal printer character tag of claim 1, wherein: the carrier layer is made of a polyethylene terephthalate plastic.

3. The thermal printer character tag of claim 1, wherein: the color of the color reversing layer is darker than that of the metal ink layer.

4. The thermal printer character tag of claim 1, wherein: the extending direction of the stripes formed by the metal ink layer is intersected with the extending direction of the metal ink layer.

5. The thermal printer character tag of claim 1, wherein: the digital printing layer is one or more of Chinese characters, numbers and two-dimensional codes.

6. The thermal printer character tag of claim 1, wherein: the color reflecting layer is formed by printing digital ink.

7. The thermal printer character tag of claim 1, wherein: the first white substrate layer and the second white substrate layer are made of the same material.

8. The thermal printer character tag of claim 1, wherein: the first white substrate layer and the second white substrate layer are made of different materials and are respectively coated on the color reflecting layer and the digital printing layer.

9. The thermal printer character tag of claim 1, wherein: the first transparent layer and the second transparent layer are coated on the carrier layer by using the same glue material.

10. The thermal printer character tag of claim 1, wherein: the color of the digital printing layer is darker than the color of the second white substrate layer.