KR101012242B1 - Card made of pla resin impregnated paper sheet and manufacturing method thereof - Google Patents

Abstract

PURPOSE: A card and a manufacturing method thereof are provided to remarkably lower a manufacturing cost and use existing facilities. CONSTITUTION: A base sheet includes PLA resin which is impregnated and dried on a traditional Korean paper and has an insertion groove(11) in one side. An RFID tag(20) includes an antenna loop(22) which is arranged on an upper surface of the base sheet(10) and an RFID chip(21) is inserted ins insertion groove of the base sheet. A protecting sheet(30) which is printable on a surface is arranged over one surface among up/down surface of the base sheet.

Description

Card made of PLA paper impregnated with starch resin and its manufacturing method {Card made of PLA Resin Impregnated Paper Sheet and Manufacturing Method Thereof}

The present invention relates to a card using a paper sheet impregnated with a PLA resin (starch resin) and a method of manufacturing the same, and more particularly, an RFID tag is inserted into a base sheet of a paper sheet impregnated with a PLA resin, which is a waterproof finishing material, and a PLA resin. The protective sheet of Hanji impregnated is laminated on the upper and lower surfaces of the base sheet, the IC can be inserted into the protective sheet, elaborate printing is possible, and various designs such as mother-of-pearl and pigment can be expressed, and It relates to an eco-friendly Hanji card and its manufacturing method that can improve durability without waterproofing.

Radio-Frequency IDentification (RFID) refers to a technology that recognizes information over a long distance by using radio waves, and requires an RFID tag and an RFID reader. The tag consists of an antenna and an integrated circuit (IC chip), which records information in the integrated circuit and sends the information to the reader via the antenna. This information can be used to identify tagged subjects, which are already embedded in public transport cards on subways and buses, and are widely used in life. They are also called Smart Tags or Smart Labels. .

As mentioned above, RFID cards (payment cards, identification cards) that are already widely used in our daily lives, or cards called smart cards with one or more integrated circuits inserted, are used repeatedly for long periods of time. Glass or polymer-based resins having strength and resistance to external contamination, particularly polycarbonate-based materials of high strength, are mainly used.

However, the conventional glass or polymer resins as described above are generally imported materials and have a higher price than paper, causing a price increase, and the polymer polymer resin, which is a compound, hardly decomposes when discarding a card, causing environmental pollution. there is a problem.

In order to solve the above problems, RFID card manufactured using Hanji was developed, but the prior art uses cardboard as a base sheet and a sheet of paper, PET resin, paper fiber resin sheet, etc. Since oil-based adhesive must be used for bonding the sheet, there is still a problem of causing environmental pollution. In addition, the card manufacturing process is complicated because the separate side waterproofing work has to be carried out, and in the case of the drawing paper used as the transparent film sheet, it has a lot of air holes, so it is difficult to elaborate the printing. There is a growing problem.

In particular, in a conventional RFID card manufacturing facility using a polymer-based material, the RFID tag adheres to the material while the material melts at a high temperature. In the case of an RFID card using a conventional Korean paper, the Korean paper is an RFID tag using an ultrasonic laser (high temperature). Since it can not withstand the insertion method can not use the conductive ink, conventional PVC card manufacturing equipment can not be used, there is a problem that must have a separate card manufacturing equipment.

The present invention was created in order to solve the above-mentioned problems, and it is possible to insert RFID tags and IC chips and to precisely print using PLA paper impregnated, dried and densified, and to express various patterns on the printed pattern. Or lacquer pigments, gold and silver pores and cloisonne, the purpose is to produce a durable card to enable the representation.

In addition, in the production of the card by using the Hanji impregnated with PLA resin, the purpose is to simplify the manufacturing process by eliminating the separate side waterproofing work.

In addition, since the RFID chip insertion method can be selected, the purpose is to produce a card with a Hanji impregnated with PLA resin that can be applied to existing facilities.

In addition, even after being completely decomposed and incinerated after landfill, it is completely incinerated and harmful substances do not come out, and the purpose is to produce a card with an eco-friendly PLA resin impregnated with eco-friendly PLA resin that does not cause environmental pollution due to disposal.

In order to achieve the above object, in the present invention, a paper pulp, a doc pulp, a ceramic elite and a dispersant, a polyethylene oxide mixture, a polyacrylamide (PAM), a starch enhancer, and a starch, vegetable gum are mixed. A base sheet formed by impregnating PLA resin on a sheet composed of a raw material mixture, capable of printing on a surface thereof, and having an insertion groove formed on one surface thereof; An RFID tag including an RFID chip inserted into an insertion groove of the base sheet and an antenna loop disposed on an upper surface of the base sheet; Impregnating and drying the PLA resin in a paper sheet consisting of a mixture of paper pulp, doc pulp, ceramic illite and dispersant polyethylene oxide, polyacrylamide (PAM), starch and vegetable gum mixture A protective sheet formed on at least one of upper and lower surfaces of the base sheet and capable of printing on a surface thereof; It provides a card using a PLA resin impregnated Hanji sheet comprising an adhesive applied between the base sheet and the protective sheet.

In addition, it is also possible to use any one or a mixture of two or more of terrapine oil, lacquer, perilla oil or melamine resin, urea resin, UV resin phenol resin and PLA (poly lactic acid) natural vegetable synthetic resin instead of PLA resin.

In this case, an insertion groove is formed in the protective sheet to allow the IC chip to be inserted, and the raw material mixture may include the stem to expose the stem to the outer surface of the Hanji sheet.

In addition, the outer surface of the base sheet or the protective sheet is selected from transfer printing, silk screen printing, offset printing, solvent printing, UV printing, hologram printing, printing including denticular 3D printing, fluorescence, phosphorescence, luminescence, gold foil and silver foil. It may be printed in any one or two or more, and the outer surface of the base sheet or protective sheet may be decorated with any one or two or more selected from bare or lacquered pigments, gold and silver pores and cloisonne.

Meanwhile, in the present invention, the base sheet has a thickness of 0.1-0.8 mm in a single sheet or two or more sheets of 0.2-0.6 mm thickness laminated, and the thickness of the protective sheet is preferably 0.1-0.3 mm.

In addition, any one selected from melamine resin, urea resin, UV resin, PLA (poly lactic acid) natural plant synthetic resin on one surface of the protective sheet not in contact with the base sheet, respectively, in order to protect the printing or pattern of the advertising surface or It is selected from resin cured sheet, laminated natural film, polyethylene (PET) or laminated thermosetting resin sheet made by curing two or more mixed resins, so that a printable transparent sheet is disposed on one surface of the protective sheet. can do.

In addition, any one or more of the base sheet and the protective sheet is cured resin made by curing any one or two or more mixed resins selected from melamine resin, urea resin, UV resin, PLA (poly lactic acid) natural vegetable synthetic resin Can be replaced with a sheet.

The present invention comprises a paper pulp, a paper pulp, a ceramic illite and a dispersant polyethylene oxide (polyethylene oxide) mixture, the strength enhancer polyacrylamide (polyacrylamide, PAM), starch, vegetable gum mixed with a raw material mixture A sheet preparation step of manufacturing a base sheet and a protective sheet by impregnating PLA (poly lactic acid) resin; An RFID tag insertion step of inserting an RFID tag consisting of an RFID chip and an antenna loop on one surface of the base sheet; A protective sheet laminating step of applying an adhesive to at least one of upper and lower surfaces of the base sheet into which the RFID tag is inserted and laminating the protective sheet on the surface to which the adhesive is applied; It provides a card manufacturing method using a PLA resin impregnated Hanji sheet comprising a; laminating step of bonding the base sheet and the protective sheet by heating and pressing at 150 ~ 200 ℃ for 1,500 ~ 3,000 seconds at a pressure of 30 ~ 80kgf / ㎠ .

In addition, in the sheet preparation step, the raw material mixture to which the dye is added can be made into a paper sheet in the form of roll paper of the long-term or ring network using an extrusion molding machine or a press, the paper sheet is a sheet of 25 sheets of paper sheet It is laminated by heating and pressurizing at 130-180 degreeC for 600-1,800 second by the pressure of 35 kgf / cm <2>, and forms in roll paper form.

At this time, the PLA sheet is coated on the roller surface and the Hanji sheet manufactured in roll paper form passes between the rolling rollers heated at 130 to 180 ° C. and pressurized for 600 to 1,800 seconds at a pressure of 25 to 35 kgf / cm 2. Is impregnated with PLA resin.

Further, after the protective sheet laminating step, the adhesive is applied to one surface of the protective sheet which is not in contact with the base sheet, and the transparent sheet is laminated; The laminating step may be simultaneously bonded by heating and pressing the base sheet, the protective sheet, and the transparent sheet at a pressure of 30 to 80 kgf / cm 2 at 150 to 200 ° C. for 1,500 to 3,000 seconds.

Meanwhile, after the protective sheet stacking step, an IC chip may be inserted into the protective sheet.

According to the card and the manufacturing method using the Hanji sheet impregnated with the PLA resin of the present invention, it is eco-friendly by using a paper material instead of the conventional poly- or synthetic resin material, can significantly lower the manufacturing cost, there is no difficulty in purchasing raw materials and It has the effect of import substitution of system or synthetic resin material.

In addition, Hanji, which is impregnated and dried with PLA resin, has been densified, so it can be used for precise printing, and freely expressing designs such as mother-of-pearl, lacquer pigment, gold and silver, and cloisonne in expressing various patterns on the printed pattern. Side waterproofing can be omitted, simplifying the manufacturing process.

In addition, since the chip insertion method can be selected, there is an advantage that the existing equipment can be used as it is.

In addition, the Hanji card impregnated with fibrous pulp and eco-friendly PLA resin is completely decomposed at the time of landfill and completely incinerated at incineration, which does not cause harmful pollution and thus does not cause environmental pollution at disposal.

1 is a schematic perspective view showing a card stack structure using a Hanji sheet according to an example of the present invention.
2A and 2B are schematic perspective views and side cross-sectional views of a completed card, respectively, showing a laminated structure of a card to which a transparent sheet is added according to another example of the present invention.
3A and 3B are schematic side views illustrating a structure in which an IC chip is inserted into a protective sheet of the present invention.
4 is a schematic perspective view showing a procedure of manufacturing the card of the present invention.
5 is a block diagram illustrating a process of manufacturing a card of the present invention.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. Prior to this, terms or words used in the present specification and claims should not be construed as being limited to the common or dictionary meanings, and the inventors should properly explain the concept of terms in order to best explain their own invention. Based on the principle that it can be defined, it should be interpreted as meaning and concept corresponding to the technical idea of the present invention.

Therefore, the embodiments described in the specification and the drawings shown in the drawings are only the most preferred embodiments of the present invention and do not represent all of the technical idea of the present invention, various modifications that can be replaced at the time of the present application It should be understood that there may be equivalents and variations.

The present invention relates to a Hanji card inserted with an RFID tag using a Hanji sheet impregnated with PLA resin as a waterproof material and dried as a base sheet and a protective sheet, and to a method of manufacturing the same. A schematic perspective view showing a lamination structure of a card using a Hanji sheet impregnated is shown.

One or more of the base sheet 10, the protective sheet 30, and the transparent sheet 40 forming each layer of the card 1 of the present invention uses a Hanji sheet impregnated with a PLA resin, hereinafter, the base sheet The structure of the present invention will be described with an embodiment in which both the 10 and the protective sheet 30 are PLA resin impregnated sheets.

As shown in FIG. 1, the card 1 of the present invention has a structure in which an RFID tag 20 is inserted into a base sheet 10 disposed in the middle, and a protective sheet 30 is stacked on upper and lower surfaces thereof. The base sheet 10 and the protective sheet 30 is impregnated with a Hanji sheet with PLA resin, dried and waterproofed.

The base sheet 10 and the protective sheet 30 may be formed by impregnating and drying the PLA resin on the same sheet of paper, and the base sheet 10 includes a plurality of sheets 10 and 30 forming the card 1. The RFID tag 20 is inserted into the center of the RFID tag 20, and the protective sheet 30 is disposed on the upper and lower surfaces of the base sheet 10, respectively, and the RFID tag 20 is inserted into the base sheet 10. ) And an advertisement or an image which forms the appearance of the card 1 and the insertion of the IC chip 32 is printed. In this case, the protective sheet 30 may be arranged on only one surface of the upper surface or the lower surface of the base sheet 10. (See Figure 3b)

On the other hand, the card 1 of the present invention is provided with only the base sheet 10 and the RFID tag 20, the transparent sheet 40 to be described later, without the protective sheet 30, respectively on the upper and lower base sheet 10 Printing and attaching the transparent sheet 40 can also be configured to reflect the RFID tag 20 in terms of design.

The Hanji sheet forming the base sheet 10 and the protective sheet 30 is a paper pulp, Doc pulp, a functional material and a polyethylene oxide (polyethylene oxide) mixture of dispersant, polyacrylamide (polyacrylamide, PAM), Starch, vegetable gum mixture.

Specifically, the Hanji sheet is a mixture of 10 to 50% by weight of paper pulp, 30 to 79.95% by weight of doc pulp, 10 to 30% by weight of functional material, a polyethylene oxide (polyethylene oxide) or polyacrylamide (polyacrylamide, PAM) as a dispersant 0.05 wt%. In addition, a mixture of polyacrylamide, starch and vegetable gum may be added within 10% by weight to increase the strength of the Korean paper and to prevent erosion of the soil and maintain nutrients and bacteria in the field or farm soil. .

Dakpul Pro constituting the Hanji sheet is obtained from any one or more materials selected from among mulberry, cedar, hawthorn, mulberry, hemp, jute, hemp, flax, ramie grass, palate, manila hemp, New Zealand hemp, sisal hemp, bouillon Natural fibrous pulp may be used.

As a functional material used with the dispersant, ceramic illite may be used as a representative, and penetrates pores such as fine grooves generated on the surface of a sheet of paper or a cross section to smooth the fibers, thereby increasing the density of the sheet, which will be described later. As described above, the printing sheet 30 can be elaborately printed on the paper.

In addition, as a functional material, one or more materials selected from ocher, elvan, tourmaline, carbon fiber, phytoncide, propolis, wood vinegar, charcoal and garlic may be used.

If you use the Hanji sheet as shown above, you can make the design of the card luxurious by utilizing the coolness of the Hanji. Especially, if you use the Hangji sheet with the shrunk, you can create the luxury of Hanji with the unique texture and expression that cannot be realized with general paint. have.

The base sheet 10 and the protective sheet 30 is a waterproof treatment by impregnating PLA resin, which is a waterproof finish on the Hanji sheet, terafin oil and lacquer, perilla oil or melamine resin, urea resin, UV resin as the waterproof finish material , Any one or two or more of various kinds of resins such as a phenol resin may be used. The base sheet 10 and the protective sheet 30 impregnated with the PLA resin are dried to harden the resin while being hardened, and the waterproofness and the restorability are increased, so that it is suitable to be used as a central material of the card 1.

Hereinafter, a method of impregnating PLA resin which is a waterproof finish on a sheet of Hanji will be described. First, 10 to 50% by weight of the paper pulp, 30 to 79.95% by weight of the paper pulp, 10 to 30% by weight of the functional material, 0.05 weight of a mixture of polyethylene oxide or polyacrylamide (PAM) as a dispersant The raw material mixture, in which the mixture of polyacrylamide, starch and vegetable gum is optionally added in 10% by weight, is made into a rolled paper of a long or circular network using an extruder or a press to form a sheet of paper of a desired thickness. . In general, all paper work is carried out in a rolled state, so the impregnation method also allows the Hanji sheet to pass between heated continuous presses, that is, rolling rollers, and to dry. When using the impregnation method as described above, more precise impregnation work is possible, and in terms of cost, the cost saving effect is greater compared to the impregnation of each sheet of Hanji, and the convenience of work can be improved.

In addition, when manufacturing a sheet of paper made of paper, by adding a dye to the raw material mixture can be produced in a variety of colors, there is an advantage that can be expressed in a variety of colors desired side of the finished card (1).

In this case, the Hanji sheet may be the base sheet 10 or the protective sheet 30 by itself, but may be formed by laminating several sheets to form the base sheet 10 or the protective sheet 30, respectively. . The base sheet 10 has a thickness of 0.1 ~ 0.8mm in a single sheet or two or more sheets of 0.2 ~ 0.6mm thickness is laminated, the thickness of the protective sheet 30 is preferably 0.1 ~ 0.3mm. .

In the present invention, the PLA resin is applied to the roller surface of the press and the paper sheet made in the form of the roll paper passes between the rolling rollers heated at 130 to 180 ° C. and pressurized for 600 to 1,800 seconds at a pressure of 25 to 35 kgf / cm 2. By impregnating the PLA resin on the sheet, using a multi-opening press (Multi-opening press) to work several sheets at a time. At this time, if the pressure is less than 25kgf / ㎠, the temperature is less than 130 ℃ or heating, the pressurization time is less than 600 seconds, the bonding state is not good, there may be a banding, that is, there may be a bending phenomenon and there is a fear that partial peeling occurs. In addition, if the pressure exceeds 35kgf / ㎠, the temperature exceeds 180 ℃, or the heating, pressurization time exceeds 1,800 seconds, the process time is long, not only damage to the hanji made of fibrous pulp, there is a problem that the impregnation is not uniform. . Therefore, the pressure, temperature and time should be maintained in a proper relationship, and if the temperature is high, the pressure may be slightly lower or the time may be shorter, and this may be adjusted according to the intended use, the thickness of each sheet to be laminated, and the composition of the Hanji sheet. have. In addition, when impregnating PLA resin on the Hanji sheet and simultaneously laminating several sheets of Hanji sheet to form one base sheet 10 and the protective sheet 30, several sheets of paper are heated and pressed under the above conditions. It is possible to impregnate PLA resin at the same time to form a sheet of Hanji with a sheet.

As described above, the base sheet 10 and the protective sheet 30 formed by impregnating and drying the PLA resin in the Hanji sheet have a dense structure and thus the sheet itself is firm, the restorability is increased, and the durability is also increased due to the waterproof treatment. It can be used as a material of the card 1, such as a polymer-based material such as PVC.

At this time, the outer surface of the protective sheet 30 that is not in contact with the base sheet 10 is a printing surface to form the appearance of the card (1), PLA resin penetrates the pores of the Hanji to protect the surface of the protective sheet (30) Smooth, transfer printing, silkscreen printing, offset printing, solvent printing, UV printing, hologram printing, 3D printing of denticular, fluorescence, phosphorescence, emission including emission, gold leaf, silver foil and more Printing is possible, and of course, the card printing method using the existing PVC material can be applied.

In addition, it is possible to freely express the design by applying Najeon, such as mother-of-pearl, lacquer pigment, gold and silver porcelain, and cloisonne on the printed pattern, all of which are eco-friendly and Korean traditional materials. Enable cultural marketing.

The RFID tag 20 is inserted into the base sheet 10. The RFID tag 20 includes an RFID chip 21 and an antenna loop 22. In this case, an insertion groove 11 is formed on an upper surface of the base sheet 10 so that the RFID chip 21 is inserted into the base sheet 10, and the insertion groove 11 is inserted into the RFID chip 21. It is preferable that the thickness of the base sheet 10 is minimized and formed to a depth corresponding to the thickness of the RFID chip 21 so that the RFID chip 21 is stably protected.

In the present invention, the antenna loop 22 may be manufactured with conductive ink, but may be manufactured by deposition and etching by ultrasonic laser and high frequency inventing, and thus may be applied to a card 1 manufacturing facility using a conventional synthetic resin material. There is this. Specifically, the method of inserting an RFID tag by depositing and etching by conventional ultrasonic laser or high frequency inventing is all performed by heat. The PLA resin of the present invention is impregnated and dried on ultrasonic paper by ultrasonic laser or high frequency inventing and RFID tag insertion experiments were performed by etching, which did not show any problems with the existing equipment. That is, in the case of the RFID card using a conventional Hanji, Hanji can not withstand the RFID tag insertion method using an ultrasonic laser (high temperature), so the conductive ink can only be used, so that conventional PVC card manufacturing equipment cannot be used, and a separate card production is possible. There is a problem to be equipped. On the other hand, the card 1 using the Hanji sheet of the present invention uses a base sheet 10 and a protective sheet 30 made by impregnating PLA resin, so that the impregnated PLA resin has a characteristic of returning to its original state by heat again. The RFID tag 20 is deposited and etched while the PLA resin is melted by the high frequency heat, and thus there is an advantage that it can be applied to a conventional PVC card manufacturing facility.

On the other hand, in addition to the RFID tag 20, depending on the purpose of the card 1, a separate IC (integrated circuit) and the like can be inserted into the base sheet 10, of course.

Adhesive 50 is disposed between the base sheet 10 and the protective sheet 30, the adhesive 50 may be applied to the upper and lower surfaces of the base sheet 10 or the protective sheet 30, the adhesive The sheet may be stacked between the base sheet 10 and the protective sheet 30 in a sheet shape. At this time, the adhesive 50 is preferably made of an environmentally friendly material, and when using an adhesive sheet, there is an advantage that can be laminated by pressing each layer in order, laminating in order.

2A and 2B show a schematic perspective view and a side cross-sectional view of the finished card 1, respectively, showing a laminated structure of the card 1 to which the transparent sheet 40 is added according to another example of the present invention. As shown in the figure, the Hanji sheet card 1 of the present invention may further include a transparent sheet 40 on the outer surface of the protective sheet 30, the transparent sheet 40 is a laminated natural film is an environmentally friendly material And a transparent sheet made of polyethylene (PET) or thin plate is preferable. Covering the outer surface of the protective sheet 30 with the transparent sheet 40 increases the durability of the card (1), and simultaneously press-bonded together with the base sheet 10 and the protective sheet 30 to simplify the lamination process. Can be. In addition, it is possible to print on the transparent sheet 40 according to the function or printing method of the card 1, when printing on the transparent sheet 40 of the transparent sheet 40 to protect the printing surface It is preferable to print on the back so that the printing surface contacts the surface of the protective sheet 30.

 At this time, the transparent sheet 40 may be used as an eco-friendly laminated natural film, polyethylene (PET), etc., all of which can be waterproof to protect the printed surface of the protective sheet 30 and at the same time durability of the card (1) To promote this. In addition, a thermosetting resin sheet, which is a transparent sheet made of thin film, may be used. In this case, since the thermosetting resin sheet dissolves into the protective sheet 30 by heat in the step of lamination by heat and pressure, peeling does not occur. In addition, the card (1) is more robust and can prevent scratches. In particular, the heating temperature and the pressure at the time of pressurization of the thermosetting resin sheet are the same as the base sheet 10 and the protective sheet 30, so that each sheet 10, 30, 40 constituting the card 1 is laminated. In the state, there is an effect that lamination is possible by one heating and pressing operation.

Meanwhile, in the present invention, one or more resin cured sheets may be inserted between the base sheet 10, the protective sheet 30, and the transparent sheet 40. The resin cured sheets may include melamine resin, urea resin, UV resin, PLA (poly lactic acid) is made by curing any one or two or more mixed resins selected from natural vegetable synthetic resins. When the resin cured sheet is inserted as described above, the heat-curable resin melts and acts as an adhesive during lamination, which will be described later, so that some adhesives can be replaced, thereby improving the resilience and durability of the card.

In addition, the resin cured sheet is also included in the resin, such as the base sheet 10, the protective sheet 30, the transparent sheet 40 has a high stability and durability, so the base sheet 10, protective sheet 30, transparent One or more of the sheets 40 may be substituted. In particular, PLA (poly lactic acid) natural vegetable synthetic resin sheet PLA sheet can be used as the protective sheet 30, the PLA sheet can be made by fermenting the sugar extracted from plants (corn).

When explaining each layer constituting the card (1) of the present invention in detail, the base sheet 10 is a PLA resin impregnated Hanji sheet, the protective sheet 30 can be used a resin cured sheet or PLA resin impregnated Hanji sheet As the transparent sheet 40 to be selectively added, a thin sheet of Hanji sheet impregnated with resin, a natural laminate film, a resin cured sheet, or the like may be used. It is also possible to use the base sheet 10 as a resin cured sheet and the protective sheet 30 as a PLA resin impregnated sheet.

3A and 3B are schematic side views illustrating a structure in which the IC chip 32 is also inserted into the protective sheet 30 of the present invention. As shown in FIG. 3A, the IC chip 32 may be inserted separately from the RFID tag 20 inserted into the base sheet 10 by forming an insertion groove 31 in the protective sheet 30 in the present invention. Only the antenna loop is installed in the sheet 10, and the IC chip 32 may be inserted into the protective sheet 30. In addition, as shown in FIG. 3B, the protective sheet 30 may be disposed only on one surface of the base sheet 10, and may be disposed on both sides of the base sheet 10 and the IC chip 32 may be inserted (not shown). It is also possible.

4 is a schematic perspective view showing a procedure of manufacturing the card 1 of the present invention, and FIG. 5 is a block diagram illustrating a process of manufacturing the card 1 of the present invention. Referring to Figure 4 describes the manufacturing method of the Hanji sheet card 1 impregnated with the PLA resin of the present invention, first, as shown in Figure 4 (a) to prepare a Hanji sheet impregnated with the PLA resin. At this time, in order to make the base sheet 10, it is preferable to form the insertion groove 11 in accordance with the size of the RFID chip 21 or the like in advance. The prepared PLA resin is impregnated and dried on a Hanji sheet as shown in Figure 4 (b) to make a base sheet 10 and a protective sheet 30, respectively, the RFID tag 20, IC chip to be inserted into the card (1) (32) Prepare the back. After the base sheet 10, the protective sheet 30, and the RFID tag 20 are prepared, the RFID tag 20 is inserted into the base sheet 10 as shown in FIG. 4C. On the upper and lower surfaces of the base sheet 10, as shown in (d) of FIG. 4, the protective sheet 30 and the transparent sheet 40 are laminated in order, and an adhesive 50 is applied between the sheets. Place the adhesive sheet. Finally, the sheets 10, 30, 40 and RFID tags 20 stacked as shown in FIG. The card 1 is completed by laminating by pressing at 30 to 80 kgf / cm 2 for 50 minutes). At this time, if the pressure is less than 30kgf / ㎠ or the temperature is less than 150 ℃, heating, pressurization time less than 1,500 seconds, the bonding state is not good, the bending, that is, the phenomenon may occur, there is a fear that partial peeling may occur. In addition, when the pressure exceeds 80kgf / ㎠, the temperature exceeds 200 ℃, or the heating and pressurization time exceeds 3,000 seconds, only the processing time is longer and expensive equipment is required to maintain the process conditions. There is a problem that the damage is made to the Hanji and antenna tags. Therefore, the pressure, temperature and time should be maintained in a proper relationship, and if the temperature is increased, the pressure may be slightly lower or the time may be shorter, and this may be adjusted depending on the intended use, the thickness of each sheet to be laminated, and the composition of the Hanji sheet. Can be.

As described above, the present invention impregnates and dries the Hanji sheet in PLA resin to make the tissue of the Hanji sheet dense, so that precise printing is possible, and in the expression of various patterns on the printed pattern, such as mother-of-pearl and lacquer pigment, gold and silver It is free to express design such as fine work, and cloisonne, and it can increase waterproofness, durability, and heat resistance without additional side waterproofing work. In addition, by using the Hanji sheet as a base sheet and a protective sheet, respectively, it is possible to replace the synthetic material such as PVC in the existing card manufacturing equipment with the Hanji sheet, it is possible to manufacture the card with eco-friendly Hanji sheet without changing the equipment.

1 Card 10 Basesheet 11 Insertion groove
20 RFID Tag 21 RFID Chip 22 Antenna Loop
30 Protection sheet 31 Slot 32 IC chip
40 transparent sheet 50 adhesive

Claims (16)

The paper pulp, Doc pulp, ceramic illite and the dispersant polyethylene oxide mixture, and the paper enhancer are placed between the rolling rollers heated to 130 ~ 180 ℃ with PLA (poly lactic acid) resin applied on the roller surface. The PLA resin is impregnated into the Hanji sheet by pressurizing it for 600-1,800 seconds at a pressure of 25-35kgf / ㎠ to pass through the Hanji sheet consisting of a raw material mixture of polyacrylamide (PAM), starch and vegetable gum. And a base sheet 10 formed by being dried and printing on a surface thereof and having an insertion groove 11 formed on one surface thereof.
An RFID tag 20 including an RFID chip 21 inserted into an insertion groove 11 of the base sheet 10 and an antenna loop 22 disposed on an upper surface of the base sheet 10;
The paper pulp, Doc pulp, ceramic illite and the dispersant polyethylene oxide mixture, and the paper enhancer are placed between the rolling rollers heated to 130 ~ 180 ℃ with PLA (poly lactic acid) resin applied on the roller surface. The PLA resin is impregnated into the Hanji sheet by pressurizing it for 600-1,800 seconds at a pressure of 25-35kgf / ㎠ to pass through the Hanji sheet consisting of a raw material mixture of polyacrylamide (PAM), starch and vegetable gum. And a protective sheet 30 formed by drying and disposed on at least one surface of the upper and lower surfaces of the base sheet 10 and capable of printing on the surface thereof.
An adhesive 50 applied between the base sheet 10 and the protective sheet 30;
It includes, The base sheet 10 and the protective sheet 30 is a card using a PLA resin impregnated Hanji sheet that is laminated by heating and pressurizing at 150 ~ 200 ℃ 1,500 ~ 3,000 seconds at a pressure of 30 ~ 80kgf / ㎠.
delete The method of claim 1,
The protective sheet 30 is formed with an insertion groove 31 is a card using a PLA resin impregnated Hanji sheet, characterized in that the IC chip 32 is inserted.
The method of claim 1,
The raw material mixture is a card using a PLA resin impregnated Hanji sheet, it characterized by the expression of the bark stem exposed on the outer surface of the paper sheet.
The method of claim 1,
The outer surface of the base sheet 10 or the protective sheet 30 is transfer printing, silkscreen printing, offset printing, solvent printing, UV printing, hologram printing, printing including denticular 3D printing, fluorescence, phosphorescence, light emission and gold foil Cards using PLA resin impregnated Hanji sheet, characterized in that printed on any one or two or more of the silver foil.
The method of claim 1,
Cards using the PLA resin impregnated Hanji sheet, characterized in that the outer surface of the base sheet (10) or the protective sheet (30) is decorated with any one or two or more selected from Najeon or lacquer pigment, gold and silver pores and cloisonne.
The method of claim 1,
The base sheet 10 has a thickness of 0.1 ~ 0.8mm in a state in which a single sheet or two or more sheets of 0.2 ~ 0.6mm thickness is laminated,
Card thickness using the PLA resin impregnated Hanji sheet, characterized in that the thickness of the protective sheet 30 is 0.1 ~ 0.3mm.
The method of claim 1,
One surface of the protective sheet 30 that is not in contact with the base sheet 10 is a melamine resin, urea resin, UV resin, PLA (poly lactic acid) natural vegetable synthetic resin in order to protect the printing or pattern of the advertising surface, respectively Any one or two or more selected selected from among a cured resin sheet made by curing a mixed resin, a laminated natural film, polyethylene (PET) or a thermally curable resin sheet made of laminated, printed on one side in contact with the protective sheet (30) Card using a PLA resin impregnated Hanji sheet, characterized in that the transparent sheet 40 is disposed.
The method according to any one of claims 1 to 3, wherein
Any one of the base sheet 10, the protective sheet 30
PLA resin impregnation, which can be replaced with a resin cured sheet made by curing any one or two or more selected from melamine resins, urea resins, UV resins and PLA (poly lactic acid) natural vegetable synthetic resins Card using Hanji sheet.
PLA (poly lactic acid) resin is applied to the roller surface, and paper pulp, doc pulp, ceramic illite and dispersant polyethylene oxide mixture, and polyacrylic polyacrylamide between rolling rollers heated to 130 ~ 180 ℃. Base sheet (10) was impregnated with PLA resin by impregnating PLA resin through a Hanji sheet consisting of a raw material mixture containing amide (polyacrylamide, PAM), starch, vegetable gum and pressing at a pressure of 25-35kgf / ㎠ for 600-1,800 seconds. ), A sheet preparing step of manufacturing the protective sheet 30;
An RFID tag insertion step of inserting an RFID tag (20) consisting of an RFID chip (21) and an antenna loop (22) on one surface of the base sheet (10);
Protective sheet for applying the adhesive 50 to at least one surface of the upper, lower surface of the base sheet 10, the RFID tag 20 is inserted and the protective sheet 30 is laminated on the surface on which the adhesive 50 is applied Lamination step;
Bonding the base sheet 10 and the protective sheet 30 by heating and pressing at 150 to 200 ° C. for 1,500 to 3,000 seconds at a pressure of 30 to 80 kgf / cm 2;
Card production method using a PLA resin impregnated Hanji sheet comprising a.
The method of claim 10,
In the sheet preparation step, a card manufacturing method using a PLA resin impregnated Hanji sheet, characterized in that the raw material mixture to which the dye is added is papermaking in the form of a roll paper of a long or ring network using an extrusion molding machine or a press.
The method of claim 10,
In the sheet preparation step, the Hanji sheet is formed by forming a roll paper form by laminating a plurality of paper sheets by heating and pressing at 130 ~ 180 ℃ 600 ~ 1,800 seconds at a pressure of 25 ~ 35 kgf / ㎠ Card production method using resin impregnated Hanji sheet.
delete The method of claim 10,
After the protective sheet stacking step, the adhesive 50 is applied to one surface of the protective sheet 30 that is not in contact with the base sheet 10 and the transparent sheet 40 is laminated;
The laminating step is a card manufacturing method using the PLA resin impregnated Hanji sheet, characterized in that the base sheet 10 and the protective sheet 30, the transparent sheet 40 is bonded at the same time.
The method of claim 14,
The laminating step is to simultaneously bond the base sheet 10, the protective sheet 30, the transparent sheet 40 by heating and pressing for 1,500 to 3,000 seconds at 150 ~ 200 ℃ at a pressure of 30 ~ 80kgf / ㎠ Card production method using a PLA resin impregnated Hanji sheet.
The method of claim 10,
After the protective sheet lamination step,
The card manufacturing method using the PLA resin impregnated Hanji sheet, characterized in that the protective sheet 30 is inserted into the IC chip (32).

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