CN210110175U

CN210110175U - Thermoprint character label

Info

Publication number: CN210110175U
Application number: CN201920928143.7U
Authority: CN
Inventors: 翟所强
Original assignee: Zhejiang Mei Sheng Intelligent System Co Ltd
Current assignee: Zhejiang Mei Sheng Intelligent System Co Ltd
Priority date: 2019-06-19
Filing date: 2019-06-19
Publication date: 2020-02-21
Anticipated expiration: 2029-06-19

Abstract

A hot stamping 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 hot stamping layer arranged on the identification parts and the filling parts. The identification part comprises a first transparent layer, a metal ink layer, a reverse color layer and a first white substrate layer, wherein the first transparent layer, the metal ink layer, the reverse color layer and the first white substrate layer are sequentially stacked from the carrier layer to the hot stamping layer. The filling part comprises a second transparent layer, a digital printing layer and a second white substrate layer, wherein the second transparent layer, the digital printing layer and the second white substrate layer are sequentially stacked from the carrier layer to the hot stamping layer. The metal ink layers are formed on the first transparent layer in stripes 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 utility model provides a thermoprint character label can increase the stereovision between this metallic ink layer and the reverse color layer, and this has not only increased the degree of discerning of this character label, has also increased the pleasing to the eye degree of this character label simultaneously.

Description

Thermoprint character label

Technical Field

The utility model belongs to seal mark shifts application, especially a thermoprint character label.

Background

In order to provide the product with a bright label, the surface of many products is coated with a hot stamping label, and the hot stamping label is used for printing the label on the surface of the product shell at a certain temperature. Some existing labels, especially labels with characters such as numbers or letters, are generally designed in a plane, and only have one color, so that the labels are not attractive enough and are not high in identification degree.

SUMMERY OF THE UTILITY MODEL

In view of this, the utility model provides a thermoprint character label that pleasing to the eye and the degree of distinguishing is high to satisfy the market demand.

A hot stamping 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 hot stamping layer arranged on the identification parts and the filling parts. The identification part comprises a first transparent layer, a metal ink layer, a reverse color layer and a first white substrate layer, wherein the first transparent layer, the metal ink layer, the reverse color layer and the first white substrate layer are sequentially stacked from the carrier layer to the hot stamping layer. The filling part comprises a second transparent layer, a digital printing layer and a second white substrate layer, wherein the second transparent layer, the digital printing layer and the second white substrate layer are sequentially stacked from the carrier layer to the hot stamping layer. The metal ink layers are formed on the first transparent layer in stripes 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 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 at the same time, and the hot stamping layer is printed on the first white substrate layer and the second white substrate layer at the same time.

Further, the carrier layer is made of a poly-p-phthalic plastic.

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

Furthermore, the extending direction of the stripe formed by the metal ink layer is perpendicular to the extending direction of the metal ink layer or intersects with the extending direction of the metal ink layer.

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

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

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

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 and second transparent layers are coated on the carrier layer using the same glue material.

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

Compared with the prior art, the utility model provides a thermoprint character label, it has been divided into identification part and filling part with whole character label to use different technology manufacturing process to make identification part and filling part. The identification part and the filling part are made by respectively printing different materials by different processes on the first transparent layer and the second transparent layer which are coated with the same material. Specifically, the identification part comprises a metal ink layer, a color reflecting layer and a first white substrate layer which are sequentially stacked from a carrier layer to a hot stamping layer, 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 coated on the metal ink layer, a digital printing layer of the filling part is directly printed on a 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 at the same time, and the hot stamping layer is coated on the first white substrate layer and the second white substrate layer at the last. The identification part is formed on the first transparent layer in the shape of stripes printed at intervals by using the metal ink layers, and then the reverse color layer is printed on the metal ink layers, and the reverse color layer is embedded between the stripes formed by the metal ink layers, so that the edge strips with color contrast can be formed. In addition, due to the existence of the first transparent layer and the second transparent layer, and the first transparent layer and the second transparent layer are made of glue, the metal ink layer, the color reflecting layer and the digital printing layer can be prevented from being damaged, the layering between the metal ink layer and the color reflecting layer can be increased, the identification degree of the character label is increased, and meanwhile, the attractiveness of the character label is also increased.

Drawings

Fig. 1 is the utility model provides a structural schematic that overlooks of thermoprint character label.

Fig. 2 is a schematic cross-sectional structure view of the stamping character label of fig. 1 to illustrate the metal ink layer.

Fig. 3 is a schematic cross-sectional structure view of the embossed character label of fig. 1 to illustrate the color-reflective layer.

Detailed Description

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

As shown in fig. 1 to fig. 3, it is a schematic structural diagram of the hot stamping character label provided by 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 stamping character label also includes other functional modules, such as a trademark module, and a two-dimensional code for providing information, which may be directly disposed on the carrier layer 10 or printed on the filling portion 30, but which is known to those skilled in the art and will not be described herein.

The carrier layer 10 is used for carrying the identification part 20 and the filling part 30, i.e. before the hot stamping character label is transferred to a target object such as clothes, equipment and the like, the identification part 20 and the filling part 30 are arranged, so that the manufacture and the transportation are facilitated. The carrier layer 10 may be made of a material such as poly-p-phenylene terephtalate (PET) that facilitates the detachment of the identification part 20 from the filling part 30. The carrier layer 10 is usually a flat plate, but of course, may be a plate-like structure having recesses and protrusions according to actual needs.

The identification part 20 and the filling part 30 are continuously manufactured at the same time, and the filling part 30 is not manufactured after the identification part 20 is completely manufactured, but the constituent structures of the identification part 20 and the filling part 30 are explained separately here for the sake of explanation. As shown in fig. 2, in the present embodiment, the stamping character label is "0". Therefore, the identification portion 20 is annularly located on the outer ring of the "0", and the filling portion 30 is filled in the identification portion 20, that is, the "0". The identification portion 20 includes a first transparent layer 21, a metallic ink layer 22, a reverse color layer 23, and a first white backing layer 24, which are sequentially stacked from the carrier layer 10 toward the stamping 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 to increase the flexibility of other structural layers, such as the metal ink layer 22, the reverse layer 23, and the like. Of course, when the first transparent layer 21 is coated, the shape of the coating may be finished according to the actual situation of the printer. As far as the printing machine itself is concerned, the control program provided for controlling the coating profile of the printing head, the printing mechanism, etc., are of prior art, and will not be described in any greater detail here. The metallic ink layer 22 is printed on the first transparent layer 21 and is formed in a ring shape. Since the metal itself has color such as gold of copper powder, silver of silver powder, etc., it can play a role of identification. In this embodiment, the metal ink layer 22 contains copper powder. The metallic ink layer 22 is formed on the first transparent layer 21 in spaced printing stripes. The extending direction of the stripes may be perpendicular to the extending direction of the metal ink layer 22 or intersect with the extending direction of the metal ink layer 22. The color-reflecting layer 23 is coated on the metal ink layer 22, and the width of the color-reflecting layer 23 along the extending direction perpendicular to the metal ink layer 22 and the width of the metal ink layer 22 along the extending direction are the same. After the reflective layer 23 is coated on the metal ink layer 22, the reflective layer 23 is embedded between the spacing stripes formed by the metal ink layer 22, and the color value of the reflective layer 23 is different from the color value of the metal ink layer 22, specifically, the color of the reflective layer 23 is darker than the color of the metal ink layer 22, so that the reflective layer 23 and the metal ink layer 22 are mutually set off, and the identification function of the identification portion 20 can be enhanced. A color value refers to a color value to which a color corresponds in an RGB color scheme. For example, red corresponds to (255, 0, 0) in the RGB color pattern, green corresponds to (0, 255, 0) in the RGB color pattern, and blue corresponds to (0, 0, 255) in the RGB color pattern. The color-reversal layer 23 is typically made of black ink. The black ink may be a homogeneous mixture of color bodies such as carbon black, binders, fillers, additives, etc., which are well known in the art and will not be described herein in detail. The first white backing layer 24 is made of white ink, which is applied on the counter color layer 23 to avoid interference of the color of other color layers, such as a stamping layer 40 or a material layer, such as a garment, with the counter color layer 23.

The filling layer 30 comprises a second transparent layer 31, a digital printing layer 32 and a second white backing layer 33 which are sequentially stacked from the carrier layer 10 to the stamping 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, and is to increase the elasticity of the ink so that the character label can be deformed with a material such as clothes 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 printed layer 32 may be a digital ink print. 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 protrude from the second white substrate layer 33, thereby facilitating identification. In this embodiment, the digital printing layer 32 is a word, such as strong, kick, flowing, etc. In fig. 2 and 3, a shadow layer is used instead for convenience of illustration only. The second white substrate layer 33 may be made of the same material as the first white substrate layer 24 or different material 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 simultaneously coated on the color reflection layer 23, the digital printing layer 32 and the second transparent layer 31.

The stamping layer 40 is applied to the other side of the identification portion 20 and the filling portion 30 with respect to the carrier layer 10, and is used for bonding to a material, such as a garment, a machine, etc., when the material is heated. The hot stamping layer 40 may be made of hot melt adhesive and coated on the identification part 20 and the filling part 30. When the material needs to be transferred, the hot stamping layer 40 is melted by heating and can be bonded on the material. After being adhered to the material, the carrier layer 10 is directly peeled off from the identification part 20 and the filling part 30, so that the transfer of the character label, that is, the character "0" is printed on the material, can be completed.

Compared with the prior art, the utility model provides a thermoprint character label, it has divided into identification part 20 and filling part 30 with whole character label to use different technology manufacturing process to make identification part 20 and filling part 30. The identification part 20 and the filling part 30 are manufactured by printing different materials on the first and second

transparent layers

21 and 31 coated with the same material for the identification part 20 and the filling part 30 respectively by different processes. Specifically, the identification part 20 includes a metal ink layer 22, a reverse color layer 23 and a first white substrate layer 24, which are sequentially stacked from a carrier layer 10 to a hot stamping layer 40, the metal ink layer 22 is formed on the first transparent layer 21 in stripes printed at intervals, the color value of the reverse color layer 23 is different from that 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 a second transparent layer 31, and finally, the first and second white substrate layers 24 and 33 made of the same material or different materials are coated at the same time, and finally, the hot stamping layer 40 is coated on the first and second white substrate layers 24 and 33. Since the identification part 20 is formed on the first transparent layer 21 using the metal ink layer 22 in stripes printed at intervals, and the reverse color layer 23 is printed on the metal ink layer 22 while the reverse color layer 23 is embedded between the stripes formed by the metal ink layer 22, a stripe having a color contrast can be formed. In addition, due to the existence of the first and second

transparent layers

21 and 31, and the first and second

transparent layers

21 and 31 are made of glue, not only can the metal ink layer 22, the reverse color layer 23 and the digital printing layer 32 be prevented from being damaged, but also the layering between the metal ink layer 22 and the reverse color layer 23 can be increased, which not only increases the identification degree of the character label, but also increases the aesthetic degree of the character label.

The above description is only for the preferred embodiment of the present invention and should not be construed as limiting the scope of the present invention, and any modification, equivalent replacement or improvement within the spirit of the present invention is encompassed by the claims of the present invention.

Claims

1. A hot stamping 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 hot stamping layer arranged on the identification parts and the filling parts, wherein the identification parts comprise a first transparent layer, a metal ink layer, a reverse color layer and a first white substrate layer which are sequentially stacked from the carrier layer to the hot stamping layer, the filling parts comprise a second transparent layer, a digital printing layer and a second white substrate layer which are sequentially stacked from the carrier layer to the hot stamping layer, the metal ink layer is formed on the first transparent layer by stripes printed at intervals, the color value of the reverse color layer is different from that of the metal ink layer and coated on the metal ink layer, and 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 at the same time, and the hot stamping layer is printed on the first white substrate layer and the second white substrate layer at the same time.

2. The stamped character label of claim 1, wherein: the carrier layer is made of a plastic of the polyterephthalic type.

3. The stamped character label of claim 1, wherein: the color of the color reflecting layer is darker than that of the metal ink layer.

4. The stamped character label of claim 1, wherein: the extending direction of the stripes formed by the metal ink layer is vertical to the extending direction of the metal ink layer or is intersected with the extending direction of the metal ink layer.

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

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

7. The stamped character label of claim 1, wherein: the first white substrate layer and the second white substrate layer are made of the same material and coated on the color reflecting layer and the digital printing layer at the same time.

8. The stamped character label 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 stamped character label of claim 1, wherein: the first and second transparent layers are coated on the carrier layer using the same glue material.

10. The stamped character label of claim 1, wherein: the color of the digital printing layer is darker than that of the second white substrate layer.