CN115662269A - Luminous label paper and manufacturing method thereof - Google Patents

Abstract

The invention is applicable to the technical field of luminous label paper, and provides luminous label paper and a manufacturing method thereof. The luminous label paper comprises a sticky bottom oil layer which can be printed on transfer paper, a bottom color layer which is printed on the bottom oil layer, a front electrode printing layer which is printed on the bottom color layer and is provided with organic conductive slurry, a luminous layer which comprises luminous slurry, an insulating layer which is printed on the luminous layer, a back electrode printing layer which is printed on the insulating layer, a frame pattern layer which is printed on the back electrode printing layer and an insulating protective layer which is printed on the back electrode printing layer; according to the luminous label paper and the manufacturing method thereof, the transfer paper of the luminous label paper can be water transfer paper easy to dehydrate, the transfer paper is torn off after the luminous label paper is soaked in water, the luminous label paper is pasted on physical products such as aluminum alloy, carbon fiber and the like in a transfer mode, good adhesive force is achieved, and the luminous label paper can be attached to a cambered or circular pasting surface. The product can combine with paint spraying layer and reach better decoration and protection effect, and water-proof effects is good and the durability is good, excellent in use effect, and user experience is good.

Description

Luminous label paper and manufacturing method thereof

Technical Field

The invention belongs to the technical field of luminous label paper, and particularly relates to luminous label paper and a manufacturing method thereof.

Background

The existing cold light luminescent product is generally printed on a PET (polyethylene terephthalate) polyester plate, is thicker, is generally adhered to a mounting surface by 3M (three-dimensional) non-setting adhesive and is easy to fall off when meeting water; moreover, the product is thick and hard, and cannot be attached to a mounting surface with a radian or a circle. And the paint cannot be combined with a paint spraying layer to achieve better decoration and protection effects (applied to the inside of the paint layer), and the waterproofness and the durability are poor.

Disclosure of Invention

The invention aims to overcome the defects of the prior art and provides the luminous label paper and the manufacturing method thereof, which have good using effect and good user experience.

The technical scheme of the invention is as follows: a kind of light-emitting label paper, including can print on the transfer paper and have viscous bottom oil reservoir, print on the bottom color layer of the said bottom oil reservoir, print on the said bottom color layer and have organic conductive slurry front electrode printed layer, including the luminescent layer of the luminescent slurry, print on the insulating layer of the said luminescent layer, print on the back electrode printed layer of the said insulating layer, print on the frame pattern layer of the said back electrode printed layer, print on the insulating protective layer of the said back electrode printed layer;

the thickness of the front electrode printing layer is 1 to 10 μm, the thickness of the light emitting layer is 15 to 25 μm, and the thickness of the insulating layer is 3 to 10 μm;

the front electrode printing layer and the back electrode printing layer are connected with an electric lead, and the electric lead is connected with a driving frequency converter module.

Optionally, the front electrode printed layer has a thickness of 3 to 5 μm.

Optionally, the light emitting layer is printed to a thickness of 10 to 20 μm.

Optionally, the insulating layer has a thickness of 5 to 8 μm.

Optionally, the driving frequency converter module includes a single chip microcomputer, an input line and an output line, the single chip microcomputer has a power input pin and a switch control pin, the input line includes a positive line and a negative line, the power input pin is connected to the positive line and the negative line, respectively, and a switch unit is connected between the negative line and the switch control pin; the single chip microcomputer is provided with an output pin, and a driving frequency conversion circuit structure is arranged between the output pin and the output line.

Optionally, the output line is connected with the conductive wire directly or through a plug terminal.

Optionally, the light emitting layer is provided with one layer or at least two layers.

Optionally, the driving frequency converter module is connected with or integrated into a wireless remote control receiving module.

The invention also provides a manufacturing method of the luminous label paper, which is used for manufacturing the luminous label paper and comprises the following steps:

preparing transfer paper;

printing the base oil with strong viscosity after baking on the transfer printing paper to form a base oil layer;

printing at least one base color layer on the base oil layer;

printing organic conductive slurry on the base color layer to form a front electrode printing layer, wherein the thickness of the front electrode printing layer is 1-10 mu m;

mixing luminescent powder and a binder to form luminescent slurry, and printing the luminescent slurry on the front electrode printing layer by a screen printing process to form at least one luminescent layer, wherein the thickness of the luminescent layer is 15-25 μm;

mixing barium titanate powder and a binder to form insulating slurry, and printing the insulating slurry on the light-emitting layer by a screen printing process to form an insulating layer, wherein the thickness of the insulating layer is 3-10 microns;

printing conductive silver paste on the insulating layer to form a back electrode printing layer;

forming a frame pattern layer on the back electrode printing layer in a screen printing mode;

and printing an insulating protection layer on the frame pattern layer.

Specifically, after the insulating protective layer is printed, a tearable film is covered on the insulating protective layer.

The transfer paper of the luminous label paper can be water transfer paper easy to dehydrate, and the transfer paper is torn off after the luminous label paper is soaked in water, is attached to physical products such as aluminum alloy, carbon fiber and the like in a transfer mode, has good adhesive force, and can be attached to a cambered or circular attaching surface (an installing surface). The product can combine with paint spraying layer and reach better decoration and protection effect, also can be applied to inside the paint layer, and water-proof effects is good and the durability is good, excellent in use effect, and user experience is good.

Drawings

In order to more clearly illustrate the technical solutions in the embodiments of the present invention, the drawings needed to be used in the embodiments will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art that other drawings can be obtained according to these drawings without creative efforts.

Fig. 1 is a schematic diagram of a layered structure of a luminescent label paper provided in an embodiment of the present invention;

fig. 2 is a schematic diagram of a driving frequency converter module in a light-emitting label according to an embodiment of the present invention.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention is described in further detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

It will be understood that when an element is referred to as being "secured to" or "disposed on" another element, it can be directly on the other element or intervening elements may also be present. When an element is referred to as being "connected to" another element, it can be directly connected to the other element or intervening elements may also be present.

In addition, in the embodiments of the present invention, if there are terms of orientation or positional relationship indicated by "longitudinal," "transverse," "length," "width," "thickness," "upper," "lower," "front," "rear," "left," "right," "vertical," "horizontal," "top," "bottom," "inner," "outer," and the like, it is only for convenience of description and simplification of the description, and does not indicate or imply that the structures, features, devices, or elements referred to must have a specific orientation or positional relationship, nor must be constructed and operated in a specific orientation, and therefore, should not be construed as limiting the invention. In the description of the present invention, "a plurality" means two or more unless otherwise specified.

The various features and embodiments described in the embodiments may be combined in any suitable manner, for example, different embodiments may be formed by combining different features/embodiments, and in order to avoid unnecessary repetition, various possible combinations of features/embodiments in the present invention will not be described in detail.

As shown in fig. 1 and fig. 2, a light-emitting label paper according to an embodiment of the present invention includes a base oil layer 1 printed on a transfer paper (not shown in the drawings) and having viscosity, a base color layer 2 printed on the base oil layer 1, a front electrode printing layer 3 printed on the base color layer 2 and having organic conductive paste, a light-emitting layer 4 printed on the front electrode printing layer 3 and including light-emitting paste, an insulating layer 5 printed on the light-emitting layer 4, a back electrode printing layer 6 printed on the insulating layer 5, a frame pattern layer 7 printed on the back electrode printing layer 6, and an insulating protective layer 8 printed on the back electrode printing layer 6; the thickness of the front electrode printing layer 3 is 1 to 10 μm, the thickness of the light emitting layer 4 is 15 to 25 μm, and the thickness of the insulating layer 5 is 3 to 10 μm; the front electrode printing layer 3 and the back electrode printing layer 6 are connected with a conductive wire, and the conductive wire is connected with a driving frequency converter module. The transfer paper can be water transfer paper easy to dehydrate, the transfer paper is torn off after the luminous label paper is soaked in water, the transfer paper is attached to physical products such as aluminum alloy, carbon fiber and the like in a transfer mode and has good adhesive force, and the transfer paper can be attached to a cambered or circular attaching surface (an installing surface). The product can combine to reach better decoration and protection effect with paint spraying layer, also can be applied to the paint coat inside, and water-proof effects is good and the durability is good, excellent in use effect, and user experience is good.

Specifically, the thickness of the front electrode printed layer 3 may be 3 to 5 μm. The light-emitting layer 4 is printed to a thickness of 10 to 20 μm. The thickness of the insulating layer 5 is 5 to 8 μm.

Specifically, the driving frequency converter module comprises a single chip microcomputer, an input line and an output line, wherein the input line is used for being connected with a positive electrode and a negative electrode of a power supply, and the output line is used for being connected with the front electrode printing layer 3 and the back electrode printing layer 6. The single chip microcomputer is provided with a power supply input pin and a switch control pin, the input line comprises a positive line and a negative line, the power supply input pin is respectively connected with the positive line and the negative line, and a switch unit is connected between the negative line and the switch control pin; the single chip microcomputer is provided with an output pin, and a driving frequency conversion circuit structure is arranged between the output pin and the output line. The drive converter module can be integrated in the drive shell, and the upper and lower shell of drive shell can adopt modes such as glue to seal or ultrasonic bonding to connect, and its waterproof nature is good. The driving frequency converter module can be small and compact in size by adopting a structure of a single chip microcomputer and a driving frequency conversion circuit.

Specifically, the output line is directly connected with the conductive wire or connected through a plug terminal, and the plug terminal can be a waterproof male terminal and a waterproof female terminal so as to facilitate installation and maintenance.

In particular, the light-emitting layer 4 is provided with one layer or at least two layers.

The main component of the luminescent layer 4 is luminescent ink, which can be prepared by mixing zinc sulfide particles with a solvent, the luminescent zinc sulfide particles of the luminescent layer 4 are in an alternating current electric field generated by alternating current voltage drive sandwiched between two electrodes (a front electrode printing layer 3 and a back electrode printing layer 6), electrons run at high speed in the luminescent layer 4 to activate luminescent atoms, so that the luminescent atoms are accelerated to obtain enough energy, the electrons excited by the electric field collide with a luminescent center and a fluorescent substance, and jump-change-recombination of electron energy poles is caused to cause the emission of high-efficiency cold light, namely, an electroluminescence phenomenon. The voltage driving the frequency converter module is adjusted to output within AC110V to AC220V, and the frequency is 400 to 1000 Hz.

Specifically, drive converter module can be the optional connection or integrated wireless remote control receiving module, and wireless remote control receiving module can be WIFI module, bluetooth module, ZIGBEE module, 4G module or 5G module. The wireless remote control receiving module can communicate with the gateway, namely, the light-emitting label paper system can comprise the gateway, one gateway can correspondingly control a plurality of driving frequency converter modules, a user can control the light-emitting label paper to work in a wireless remote control or Internet of things control mode, and the user experience is good.

Specifically, the housing of the driving frequency converter module can be integrated into a power module, or a main housing is provided, and the housing of the driving frequency converter module and the power module can be arranged in the main housing. The power module can be a rechargeable battery. The driving frequency converter module can be externally connected with a power supply for use. The main housing may be a watertight housing.

The embodiment of the invention also provides a manufacturing method of the luminous label paper, which is used for manufacturing the luminous label paper and comprises the following steps:

preparing transfer paper, wherein the transfer paper can be water transfer paper easy to dewater;

printing base oil with strong viscosity after baking on the transfer printing paper to form a base oil layer 1;

printing at least one base color layer 2 on the base oil layer 1, wherein the base color layer 2 can be a white ink layer;

printing organic conductive slurry on the bottom color layer 2 to form a front electrode printing layer 3, wherein the thickness of the front electrode printing layer 3 is 1-10 μm;

mixing luminescent powder and a binder to form luminescent slurry, and printing the luminescent slurry on the front electrode printing layer 3 through a screen printing process to form at least one luminescent layer 4, wherein the thickness of the luminescent layer 4 is 15-25 μm;

mixing barium titanate powder and a binder to form insulating slurry, and printing the insulating slurry on the light-emitting layer 4 through a screen printing process to form an insulating layer 5, wherein the thickness of the insulating layer 5 is 3-10 microns;

printing conductive silver paste on the insulating layer 5 to form a back electrode printing layer 6;

forming a frame pattern layer 7 on the back electrode printing layer 6 in a screen printing mode;

and printing an insulating protection layer 8 on the frame pattern layer 7.

In specific application, the luminous label paper can be manufactured by a thick film method of screen printing, and the operation environment is a dust-free cleaning workshop with the grade of more than 10 ten thousand.

Preparing paper: mature water-easy-to-dewater water transfer paper is used as a carrier of the light-emitting mark, so that the light-emitting body can be conveniently soaked in water and pasted on various physical products made of different materials such as aluminum alloy, carbon fiber and the like in the later period to serve as an appearance ornament.

Printing a bottom oil layer 1: the method is characterized in that special LED adhesive base oil is adopted, the LED adhesive base oil with strong viscosity after being baked at high temperature is printed on the bottommost layer of transfer printing paper to form a base oil layer 1 which can be pasted on a real product, the base oil generates a strong adhering effect after being baked, and screen printing of 200T-300T is adopted during printing.

Printing the base color layer 2: the special LED white ink (white ink layer) is adopted, in order to prevent the body color of a real product from being exposed and prevent poor appearance effect caused by uneven ink, a layer of white ink is printed to be used as the ground color of a luminous body to form a ground color layer 2, and 80T-100T screen printing is adopted during printing.

Printing the front electrode printing layer 3: the organic conductive paste is printed on a white background color (a background color layer 2) to play a role of a front electrode, the thickness is 3-5 mu m, and screen printing of 200-300T is adopted during printing.

Printing step of the luminous layer 4: mixing the luminescent powder and the binder (organic polymer and ink) into luminescent slurry suitable for screen printing, printing the luminescent slurry on the front electrode printing layer 3 with the thickness of 10-20 mu m, adopting a screen printing plate of 80-100T during printing, printing for 2 times and scraping 2 knives.

Printing an insulating layer 5: mixing barium titanate powder and a binder (organic polymer and ink) into an insulating paste suitable for screen printing, printing the insulating paste on the luminescent layer 4 to form an insulating layer 5 with the thickness of 5-8 mu m, adopting a screen printing method of 80-100T during printing, printing for 1 time and scraping for 2 knives.

Printing the back electrode printing layer 6: and printing conductive silver paste on the insulating layer 5 to play a role of a back electrode, wherein the thickness is 5-8 mu m, and the conductive silver paste is printed for 1 time by adopting 80-100T screen printing and scraping 2 knives.

Printing the frame pattern layer 7: the frame pattern layer 7 is formed by printing the frame patterns by black ink or other color ink, the visual appearance effect is better, 80T-100T screen printing is adopted during printing, and the hollowed-out area of the frame pattern layer 7 can be the front pattern of the luminous mark.

Insulating protective layer 8 (protective layer top coat) printing step: the LED curing ink is printed on the back electrode to play the role of insulation and protection, and the printing is carried out by adopting a screen printing plate of 80T-100T. The insulating protection layer 8 may cover the frame pattern layer 7 and the insulating layer 5 (corresponding to the hollow area of the frame pattern layer 7). Wherein the time for baking the front electrode printed layer 3 is 30 minutes, and the resistance is less than 1 ohm by using a multimeter. The luminescent layer 4 needs to be baked 10 minutes after printing. The insulating layer 5 was dried for 30 minutes after printing. The back electrode printed layer 6 was dried for 15 minutes after printing.

Assembling: (1) sticking the flat cable on the electrode; (2) soldering fine wires to the busbars; (3) covering a tearable film on the insulating protection layer 8; (4) shearing (trimming); (5) detecting a finished product; and (6) packaging.

When the novel anti-theft device is used specifically, a small hole can be drilled on the mounting surface, an electric wire penetrates through the small hole and then is connected with a driving frequency converter module, a power supply and the like, the electric wire and the like can be installed in a hidden mode, and the novel anti-theft device is neat in appearance and better in waterproofness. The small hole can be provided with a waterproof rubber sleeve, a rubber plug or waterproof glue.

According to the luminous label paper and the manufacturing method thereof provided by the embodiment of the invention, the transfer paper of the luminous label paper can be water transfer paper easy to dehydrate, the transfer paper is torn off after the luminous label paper is soaked in water, the luminous label paper is transfer-adhered to physical products such as aluminum alloy, carbon fiber and the like, the luminous label paper has good adhesive force, and the luminous label paper can be adhered to a cambered or circular adhering surface (an installation surface). The product can combine with paint spraying layer and reach better decoration and protection effect, also can be applied to inside the paint layer, and water-proof effects is good and the durability is good, excellent in use effect, and user experience is good.

The above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the invention, and any modifications, equivalents or improvements made within the spirit and principle of the present invention should be included in the scope of the present invention.

Claims (10)

1. A kind of shiny label paper, characterized by, including can print on the transfer paper and have viscous bottom oil reservoir, print on the bottom color layer of the said bottom oil reservoir, print on the said bottom color layer and have organic conductive slurry front electrode printed layer, including luminescent layer of the luminescent slurry, print on the insulating layer of the said luminescent layer, print on the back electrode printed layer of the said insulating layer, print on the frame pattern layer of the said back electrode printed layer, print on the insulating protective layer of the said back electrode printed layer;

the thickness of the front electrode printing layer is 1 to 10 μm, the thickness of the light emitting layer is 15 to 25 μm, and the thickness of the insulating layer is 3 to 10 μm;

the front electrode printing layer and the back electrode printing layer are connected with a conductor wire, and the conductor wire is connected with a driving frequency converter module.

2. The luminescent label of claim 1, wherein the front electrode printed layer has a thickness of 3 to 5 μm.

3. The luminescent label of claim 1, wherein the luminescent layer is printed to a thickness of 10 to 20 μm.

4. The luminescent label of claim 1, wherein the insulating layer has a thickness of 5 to 8 μm.

5. The light-emitting label paper of claim 1, wherein the driving frequency converter module comprises a single chip microcomputer, an input line and an output line, the single chip microcomputer is provided with a power input pin and a switch control pin, the input line comprises a positive line and a negative line, the power input pin is respectively connected with the positive line and the negative line, and a switch unit is connected between the negative line and the switch control pin; the single chip microcomputer is provided with an output pin, and a driving frequency conversion circuit structure is arranged between the output pin and the output line.

6. The luminescent label of claim 4, wherein the output wire is connected to the conductive wire directly or through a plug terminal.

7. The luminescent label of claim 1, wherein the luminescent layer is provided with one or at least two layers.

8. The light-emitting label paper as claimed in claim 1, wherein the driving frequency converter module is connected with or integrated into a wireless remote control receiving module.

9. A method for manufacturing a luminescent label paper according to any one of claims 1 to 8, comprising the steps of:

preparing transfer paper;

printing base oil with strong viscosity after baking on the transfer printing paper to form a base oil layer;

printing at least one bottom color layer on the bottom oil layer;

printing organic conductive slurry on the bottom color layer to form a front electrode printing layer, wherein the thickness of the front electrode printing layer is 1-10 mu m;

mixing luminescent powder and a bonding material into luminescent slurry, and printing the luminescent slurry on the front electrode printing layer by a screen printing process to form at least one luminescent layer, wherein the thickness of the luminescent layer is 15-25 mu m;

mixing barium titanate powder and a binder to form insulating slurry, and printing the insulating slurry on the light-emitting layer by a screen printing process to form an insulating layer, wherein the thickness of the insulating layer is 3-10 microns;

printing conductive silver paste on the insulating layer to form a back electrode printing layer;

forming a frame pattern layer on the back electrode printing layer in a screen printing mode;

and printing an insulating protection layer on the frame pattern layer.

10. The method of claim 9, wherein after the insulating protective layer is printed, a peelable film is covered on the insulating protective layer.

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