KR101974030B1 - Eco-friendly Off-set Printing Fruit Bag - Google Patents

Abstract

The present invention relates to environmentally-friendly offset printing fruit bags.
The eco-friendly offset printing fountain pouch of the present invention comprises the steps of: preparing a raw paper by papermaking a recycled pulp into a twin-screw type initial stage, performing offset printing in which the ink transfer amount is controlled on the raw paper, Which can be mass-produced at low cost by appropriately controlling the amount of light emitted and the degree of permeability of the fruit. Thus, . In addition, the fruit bag of the present invention has the effect of preventing the fall of the bag due to the light weight of the bag even though the adjustment process for controlling the amount of light and the degree of transparency is performed; There is an advantage that an organic solvent is not used in a printing operation and thus environmental pollutants are not emitted in the manufacturing process.

Description

Eco-friendly Offset Printing Fruit Bag}

The present invention relates to environmentally-friendly offset printing fruit bags. In detail, through the papermaking process, the offset printing process, and the coating and water-repellent process successively, the workability and durability are excellent and the weight is light, but the light transmittance and the air permeability are optimized to improve the appearance and sugariness of the fruit, The present invention relates to environmentally friendly fruit bags that do not use organic solvents during the offset printing process.

Fruit bags used from the 16th century were originally used only for the prevention of pests, but nowadays, they are equipped with high technology to control the light shade, water repellency, Is required. An example of the application of fruit bags is "pears", of which golden pears are modified by cross breeding of twenty-century varieties in 1984, with high sugar content and soft flesh, Is one of the most promising varieties of exporting prospects in Australia and Europe. (The cultivation area of 10ha is 5.8M / T and the cultivation area is 150ha, the export amount is 200.6M / T. However, these golden pears are not able to meet the present demand due to the decline of the commodity value caused by pests such as dandruff and black spot. It is possible to prevent pesticide contamination of the ship because pesticide is not directly applied to the pear, and infestation of pests and bacteria can be originally blocked in the bag. Conventionally, the fruit bags used in the domestic market include newspapers, magazines, kraft paper, and the like. The fruit bags have problems in durability, transparency, transparency, and temperature necessary for fruit growth. Recently, Fruit bags, which are reinforced with workability and physical properties, have been manufactured by adding a sizing agent, a sizing stabilizer, and wax, but most of the demand is covered by imports. The specularity of the fruit bag directly affects the sugar content of the fruit. If the air permeability is so high that the microcrystalline condition in the bag rapidly changes according to the change of the outside air, there is a problem that the skin of the fruit is blown or heated, and the durability of the bag is also deteriorated. A method of reducing the specularity of the fruit bag is to increase the basis weight of the paper or to improve the degree of defatting at the stage of producing the paper to reduce the structural density of the paper. However, when the basis weight is excessively increased, the weight of the fruit bag increases, and there is a risk of early fall of the hanging bag. If the degree of the beating treatment is excessively improved, the flexibility of the fruit bag is lowered and it is difficult to work the hanging bag. And there is a problem that the drying is slow and the cost is high. In addition, when the bag is produced using natural pulp, in order to reduce the permeability at a certain level (Gurley Densometer standard: 35 sec / 100 mL) or more, the degree of defatting is excessive, so that the opacity of the bag is inevitably lowered. The amount of light transmitted through the fruit bag directly affects the appearance of the fruit. When the light is too strong for the bag, the light is blue, and the harvest time is slow There is a problem. Especially, as the average temperature of existing fruit growing area rises due to global warming, the ability to control the amount of light emitted from fruit bags that block intense sunlight becomes more important. In order to reduce the light transmittance of the bag, there is a method of increasing the basis weight of the paper but adjusting the color of the paper by adding the dye at the stage of producing the paper for fruit sealing. However, when the basis weight is excessively increased, the weight of the fruit bag increases, and there is a risk of early fall of the hanging bag. When the dye amount is adjusted to control the permeation amount, There is a problem that it takes a lot of cost in production. In order to solve the problem of environmental pollution due to the use of the dye, a method of controlling the permeation amount of the fruit bag through ink printing has been developed. There is a gravure printing method as a method of printing a large amount of paper. However, in the gravure printing method, it is difficult to control the amount of transferred ink, and since ink diluted with an organic solvent is used, the concentration of the printed ink is low and the film formation is poor, which makes it difficult to adjust the light transmittance and the specularity. Therefore, if a new concept of fruit bag processing and processing technology for the production of fruit bags are developed that efficiently control the light transmittance and permeability of raw paper during the manufacture of fruit bags, And it is expected that it will be possible to improve the farm income because the fruit can be harvested with improved commerciality due to the use of the above-mentioned fruit bag.

The patent documents and references cited herein are hereby incorporated by reference to the same extent as if each reference was individually and clearly identified by reference.

Korea Patent No. 459150

In order to solve the above problems, the inventors of the present invention have found that, by using an offset printing method in which the ink transfer amount is controlled with respect to a paper sheet whose light transmittance and air permeability are first controlled through papermaking, The envelope of the fruit bag was prepared by second controlling the permeability and controlling the degree of permeation through the coating and water repellent treatment on the offset printing paper, and then, an environmentally offset printing fruit bag was manufactured . As a result of measuring the sugar content and color of the pear by using the above-described fruit bag, the inventors of the present invention found that the weight of the fruit due to the hanging bag There is no risk of falling, and the flexibility of the bag makes it easy to work the hanging bag while reducing the amount of light transmission and the degree of penetration, thereby improving the sugar content and color of the fruit.

It is therefore an object of the present invention is environmentally friendly offset to a basis weight of 40-50g / m ² and the light transmitting rate is 51-59% and the air permeability of the 76-85sec / 100㎖ geotji and the basis weight comprises a 40-50g / m ² of inlay And to provide a printing fruit bag.

It is another object of the present invention to provide a method of manufacturing the eco-friendly offset printing fruit pouch.

Other objects and technical features of the present invention will be described in more detail with reference to the following detailed description, claims and drawings.

According to one aspect of the present invention, the present invention provides a method of making a coating composition having a basis weight of 40-50 g / m ² , a light transmittance of 51-59% and an air permeability of 76-85 sec / Provides eco-friendly offset printing fruit bags containing 40-50 g / m ² inlay. According to one embodiment of the present invention, the cover paper and the inlay paper are produced by papermaking the recycled pulp with a bilingual paper machine.

According to another embodiment of the present invention, the light transmittance of the cover is adjusted to 60-70% through the first-order adjustment step sequentially; It is adjusted to 51-59% through the second adjustment step. Also, the degree of air permeability of the cover is controlled to 30-50 sec / 100 ml through the first control step sequentially; Adjusted to 65-75 sec / 100 ml through a secondary control step; And is adjusted to 76-85 sec / 100 ml through the third adjustment step.

According to another embodiment of the present invention, the primary adjustment step is a step of grinding the recycled pulp with a bilaboratory paper machine to produce the envelope paper; Wherein the secondary adjustment step is a step of performing offset printing on the cover paper produced through the primary adjustment step; The tertiary adjustment step is a step of performing coating and water repellent processing on the cover paper of the offset printed through the secondary adjustment step.

According to another aspect of the present invention, the present invention provides a method of manufacturing an eco-friendly offset printed fruit pouch comprising the steps of:

Step 1: recycled pulp and paper machine using a pair mangsik light transmitting rate and an air permeability of each 60 to 70% and 30-50sec / 100㎖ the primary control in the basis weight 40-50g / m ² of the base paper for fruit bags geotji ;

A second step of secondary printing the transparency ratio and transparency by performing offset printing after winding the paper of the outer surface of the fruit sealing bag;

A third step of fabricating the cover of the fruit bag by thirdly controlling the degree of air permeability by performing coating and water repellent treatment on the offset printed fruit envelope cover paper; And

Step 4: Fabricating the fuse bag for the cover and the inlay of the fruit bag.

The present invention relates to environmentally-friendly offset printing fruit bags.

The eco-friendly offset printing fountain pouch of the present invention comprises the steps of: preparing a raw paper by papermaking a recycled pulp into a twin-screw type initial stage, performing offset printing in which the ink transfer amount is controlled on the raw paper, Which can be mass-produced at low cost by appropriately controlling the amount of light emitted and the degree of permeability of the fruit. Thus, . In addition, the fruit bag of the present invention has the effect of preventing the fall of the bag due to the light weight of the bag even though the adjustment process for controlling the amount of light and the degree of transparency is performed; There is an advantage that an organic solvent is not used in a printing operation and thus environmental pollutants are not emitted in the manufacturing process.

1 shows a schematic view of an environmentally-friendly offset printing fruit bag of the present invention.
Fig. 2 shows an environmentally-friendly offset printing fruit bag according to the present invention.

According to one aspect of the present invention, the present invention provides a method of making a coating composition having a basis weight of 40-50 g / m ² , a light transmittance of 51-59% and an air permeability of 76-85 sec / Provides eco-friendly offset printing fruit bags containing 40-50 g / m ² inlay. The fruit bag of the present invention is a double-layered fruit bag including a cover and an inlay, which keeps the micro-conditions in the bag dry at a high temperature to improve the sugar content and reduce the amount of light transmitted thereby to induce loss of chlorophyll, . To this end, the borders may have water repellency and water repellency, and may have low light transmittance and air permeability.

According to an embodiment of the present invention, the envelope of the environmentally-friendly offset printing fruit bag of the present invention uses a base paper having a basis weight of 40-50 g / m ² . Preferably, the envelope of the environmentally-friendly offset printing fruit pouch uses a base paper having a basis weight of 44-48 g / m ² . More preferably, the cover of the environmentally-friendly offset printing fruit bag has a basis weight of 46 g / m ² .

According to another embodiment of the present invention, the envelope of the eco-offset printed fruit pouch of the present invention is produced by papermaking a recycled pulp with a binocular paper machine, and in a process of producing the paper having the basis weight, % And 30-50 sec / 100 ml. Preferably, the transparency and air permeability of the raw paper are adjusted to 62-68% and 35-45 sec / 100 ml, respectively. More preferably, the transmittance and the transparency of the paper are adjusted to 65% and 40 sec / 100 ml, respectively.

The recycled pulp to be used in the papermaking process may be a pulp obtained by separating the pulp from mechanical pulp from chemical pulp such as newspaper, corrugated cardboard, high-grade paper, mixed paper and the like. Preferably, the regenerated pulp is preferably a white recycled pulp for the purpose of controlling the amount of light transmission, but is not limited thereto. The twin wire paper machine refers to a paper machine having the advantage that the paper is injected into a gap formed by two wires and the paper is dewatered to both the upper and lower sides so that the front and rear wheels are not generated severely.

The basis weight, light transmission and permeability of the raw paper are related to the workability of the fruit bag, the color of the fruit and the fruit cracking. When the basis weight of the raw paper is less than 40 g / m ^2, it is difficult to keep the microcrystalline condition in the bag in a dried state because the air permeability is too high. If the basis weight of the raw paper exceeds 50 g / m ² , There is a downside to this. The transmittance and permeability of the raw paper are adjusted to the final amount of light and specularity most suitable for improving the sugar content and color of the fruit through a secondary or tertiary adjustment process. Therefore, when the transmittance and the transmittance of the raw paper are out of the range of 60-70% and 30-50 sec / 100 ml, respectively, it is difficult to control the final transmittance through the secondary and tertiary adjustment and the transmission.

The light transmittance of the present invention means the rate at which light falling on the crop passes through the lamina. If the light transmittance of the fruit pouch is too low, the perianth chlorophyll does not sufficiently cause carbon assimilation due to photosynthesis and the sugar content of the fruit may be lowered. If the light transmission rate of the fruit pouch is too high, the residual amount of chlorophyll The color of fruit is not sharp because the blue color of the fruit is slower and the merchantability may be lowered. The air permeability of the present invention means the degree to which the paper passes air. The air permeability is expressed in seconds, which is the time required for a certain amount of air to pass through the specimen of the fruit seal under a certain condition. If the air permeability of the fruit bag is too low, the movement of the air becomes too frequent, so that the microcirculation conditions in the bag rapidly change due to the surrounding environment, so that the microcrystalline condition can not be maintained at a high temperature and dryness. It can fall.

According to an embodiment of the present invention, the light transmittance of the fruit envelope of the present invention is controlled in a sequential multistage manner, adjusted to 60-70% through a first adjustment step and adjusted to 51-59% through a second adjustment step do. Preferably, the light transmission rate is adjusted to 62-68% through the first adjustment step and to 53-57% through the second adjustment step. More preferably, the light transmission rate is adjusted to 65% through the first adjustment step and to 55% through the second adjustment step.

According to another embodiment of the present invention, the primary adjustment step may include the steps of papermaking a recycled pulp with a bilaborative paper machine to produce the cover paper, wherein the secondary adjustment step includes the steps of: And performing offset printing on the paper.

If the light transmission rate of the first adjustment step is less than 60% or exceeds 70%, it is difficult to adjust the light transmission rate to 51-59% through the second adjustment step, and the light transmission rate adjusted through the second adjustment step is 51 %, The peritoneal chlorophyll does not sufficiently cause carbon assimilation due to photosynthesis, so that the sugar content of the fruit may be lowered. If the light transmittance controlled by the second control step exceeds 59%, the chlorophyll Due to the large amount of residue, the blue color of the rind may be slowed down and the merchantability may drop.

According to an embodiment of the present invention, the air permeability of the fuse bag is controlled in a sequential multistage manner and is adjusted to 30-50 sec / 100 ml through a first adjustment step; Adjusted to 65-75 sec / 100 ml through a secondary control step; And is adjusted to 76-85 sec / 100 ml through the third adjustment step. Preferably said permeability is adjusted to 35-45 sec / 100 ml through a first regulating step; Adjusted to 68-72 sec / 100 ml through a secondary control step; And is adjusted to 78-82 sec / 100 ml through the third adjustment step. More preferably, the permeability is adjusted to 40 sec / 100 ml through the first regulating step; Adjusted to 70 sec / 100 ml through a second regulating step; And is adjusted to 80 sec / 100 ml through the third adjustment step. If the permeability of the first control step is out of the range of 30-50 sec / 100 ml, it is difficult to control the permeability of the fruit sealant paper to 65-75 sec / 100 ml through the second control step, When the air permeability is out of the range of 65-75 sec / 100 ml, it is difficult to control the permeability of the fruit sealant paper to 76-85 sec / 100 ml through the third adjustment. If the permeability of the fruit sealant paper through the third control is less than 76 sec / 100 ml, there is a possibility of occurrence of heat of the fruit, and if the permeability of the fruit sealant paper exceeds 85 sec / 100 ml, It is not efficient to maintain the state of the fruit, and the sugar-improving effect of the fruit can be reduced by half.

According to an embodiment of the present invention, the secondary adjustment step of the present invention prints the original surface by using off-set printing to adjust the amount of transmitted light and the degree of transparency.

The offset printing is a method in which transfer printing is performed once on a rubber blanket serving as a mediating role without printing on an object (printing object) directly on the plate, and then printing is performed on the paper. The offset printing of the present invention includes a convex offset printing and a gravure offset printing depending on the type of the printing plate. According to one embodiment of the present invention, the offset printing of the present invention is a gravure offset printing. The offset printing of the present invention is advantageous in that it does not use the ink diluted with the organic solvent in contrast to the conventional gravure printing and has no fear of environmental pollution and low manufacturing cost. Since the ink of high concentration can be used, the ink transfer amount can be freely adjusted There are advantages to be able to. The amount of ink transferred is advantageous in forming a film through printing, and the light transmittance and permeability of the printed fruit seal can be easily controlled.

According to one embodiment of the present invention, the offset printing of the present invention is performed by controlling the ink transfer amount to 2.00-7.00 g / m < ^{2 &} gt ;. Preferably, the offset printing of the present invention is carried out by controlling the ink transfer amount to 3.00-6.00 g / m < ^{2 &} gt ;. More preferably, the offset printing of the present invention is performed by controlling the ink transfer amount to 4.00 to 5.00 g / m < ^{2 &} gt ;.

If the offset ink transfer amount of 0.5g / m ² under the control of a print, and a limit to the degree of thin-to-light amount and speculation thickness of the coating layer by offset printing, even exceeding 8.00g / m ^2, the amount of ink transferred on the offset press wherein The increase in the effect of adjusting the transmittance and the transmittance by the offset printing is insignificant.

According to an embodiment of the present invention, the third controlling step of the present invention is a step of performing coating and water repellent processing on offset printing paper covered with offset through the secondary adjusting step.

According to one embodiment of the present invention, the coating and water repellent treatment is prepared by preparing a coating solution prepared by mixing toluene, paraffin wax, silicone oil, linseed oil, soybean oil, seed oil, camellia oil, preservative, antioxidant, And spraying the coating solution onto the paper of the offset printed blanks or immersing the offset printing blanks in the coating solution and drying. The third controlling step forms a transparent coating layer having a water repellent function at an outermost periphery of the surface of the fruit pouch. Therefore, the coating layer formed by the third controlling step has an effect of controlling the permeability of the fruit bag, but does not control the amount of transmitted light.

According to another aspect of the present invention, the present invention provides a method of manufacturing an eco-friendly offset printed fruit pouch comprising the steps of:

Step 1: recycled pulp and paper machine using a pair mangsik light transmitting rate and an air permeability of each 60 to 70% and 30-50sec / 100㎖ the primary control in the basis weight 40-50g / m ² of the base paper for fruit bags geotji ;

A second step of secondary printing the transparency ratio and transparency by performing offset printing after winding the paper of the outer surface of the fruit sealing bag;

A third step of fabricating the cover of the fruit bag by thirdly controlling the degree of air permeability by performing coating and water repellent treatment on the offset printed fruit envelope cover paper; And

Step 4: Fabricating the fuse bag for the cover and the inlay of the fruit bag.

According to an embodiment of the present invention, the offset printing of the second step is performed by controlling the ink transfer amount to 2.00-7.00 g / m ² . Preferably, the ink transfer amount is controlled at 3.00-6.00 g / m ² , more preferably 4.00-5.00 g / m ² .

According to another embodiment of the present invention, the fruit envelope of the first step preferably has a basis weight of 44-48 g / m ² The light transmittance and the air permeability are respectively 62-68% and 35-45 sec / 100 ml, more preferably 46 g / m ² The light transmittance and the air permeability are respectively 65% and 40 sec / 100 ml.

According to another embodiment of the present invention, the second adjustment of the second step is performed by adjusting the light transmittance to 51-59% and adjusting the air permeability to 65-75 sec / 100 ml. Preferably, the light transmittance is adjusted to 53-57%, the transparency is adjusted to 68-72 sec / 100 ml, more preferably the transmittance is adjusted to 55%, and the transparency is adjusted to 70sec / 100 ml do.

According to another embodiment of the present invention, the tertiary regulation of the third step regulates the permeability to 76-85 sec / 100 ml. Preferably, the air permeability is adjusted to 78-82 sec / 100 ml, more preferably the air permeability is adjusted to 80 sec / 100 ml.

Example

Example: Fruit bags manufactured using offset printing

Domestic papers were papermaking using a twin net paper machine and recycled pulp with a basis weight of 46 g / m ² , a light transmittance of 65%, and an air permeability of 40 sec / 100 ml. The paper was rolled up in a rolled state and then controlled to have a light transmittance of 55% and an air permeability of 70 sec / 100 ml using a black offset printing. The ink transfer amount of the offset printing (black offset printing) is 4.50 g / m ² .

The fabric was applied to coating and water - repellent treatment using coating chemicals, and the inlay was applied to 10 - year - old pears of Orang - in, Naju, Jeonnam Province. After the post-treatment of the coating and water-repelling treatment, the degree of permeation of the fruit seal was 80 sec / 100 ml, the light transmission rate was 55%, and the water repellency was also good. The composition of the coating agent used in the post-treatment is shown in Table 1 below.

Chemical composition toluene Paraffin wax Silicone oil Linseed oil Soybean oil Seed oil Camellia oil antiseptic Antioxidant pesticide Content (㎏) 57.4 3.67 3 6.17 0.88 0.88 0.88 0.02 0.018 0.023

Comparative Example: Fruit bags manufactured using gravure printing

In the same manner as in Example 1, a domestic papermaking paper was papermaking using a twin-screw paper machine and recycled pulp with a basis weight of 46 g / m ² , a light transmittance of 65% and an air permeability of 40 sec / 100 ml. The ground paper was rolled up in a rolled state and then used for black gravure printing to control the light transmittance and the transparency so as to have a final light transmittance of 60% and a light transmittance of 60 sec / 100 ml Respectively. The gravure printing (black gravure printing) was performed by setting the same amount of ink transfer in the offset printing in the above embodiment. The printed paper was subjected to post-treatment of coating and water-repellent treatment using a coating agent, and the inlay was applied to a 10-year-old registered pear of orchard in Naju, Jeonnam Province. After the post-treatment of the coating and water-repelling treatment, the degree of permeability of the fruit seal was 65 sec / 100 ml, the light transmission rate was 65%, and the water repellency was also good. The composition of the coating agent used in the post-treatment is shown in Table 1 above. Table 2 below shows specifications of fruit bags manufactured using offset printing and fruit bags made using gravure printing.

How to print Basis weight of raw paper Origin Fruit bags Flood rate Specularity Flood rate Specularity Example Offset printing 46 g / m ² 65% 40 sec / 100 ml 55% 80sec / 100ml Comparative Example Gravure printing 46 g / m ² 65% 40 sec / 100 ml 65% 65sec / 100ml

According to the above results, in the fruit bag of the embodiment manufactured by using the offset printing, since the ink is diluted by the organic solvent and the volley is excellent in the film forming ability as compared with the conventional gravure printing (comparative example), the same ink transfer amount is used It is easy to control the degree of speculation.

Experimental Example: Measurement of quality of boats grown with fruit bags

The sugar content, the percentage of chlorophyll content, the weight, the acid content and the color of the pears grown by applying the fruit bags of the examples and the comparative examples were measured and shown in Table 3.

Sugar content
(° BX) Overweight (g) Acid content (%) Pericarp chlorophyll
(Mg / m 2) Color L ^* a ^* b ^* Example 13.5 600 0.132 13.7 79 7.2 36 Comparative Example 11 570 0.139 16 74 6.5 26

According to the results shown in Table 3, it was confirmed that the sugar content of the grape bag to which the offset printing fruit seal (present invention) of the present invention was applied was improved by 22.7% or more in comparison with the grape printed fruit seal (comparative example) It was confirmed that the weight of the boat with the printed fruit bag was 5% heavier than that of the gravure printed fruit bag. In addition, it was confirmed that, in the case of vessels with offset printing fuzzy bags, the colors unique to the vessels were improved compared to vessels with gravure printing fruit bags. The above results are considered to be due to the difference in the transmittance and the transmittance of the gravure printed fruit bags and the offset printed fruit bags. The transparency of the offset printing fleece bag was 80 sec / 100 ml, which was lower than that of gravure printing fruit bag by 15 sec / 100 ml. When the air permeability is lowered, the microcirculation conditions in the fruit bag are maintained in a high temperature and high humidity condition, thereby suppressing infiltration of bacteria causing decay of the fruit, maintaining the freshness of the fruit, and promoting the growth of the fruit. Therefore, it is judged that the sugar-coated fruit bag with the offset printing is improved in sugar content and over-filling as compared with the gravure-printed sugar-coated vessel.

The light transmission rate (55%) of the fruit bag to which offset printing was applied was lowered by more than 10% as compared with the light transmission rate (65%) of the fruit bag to which the gravure printing was applied. When the light transmittance is lowered and the light transmitted through the bag is reduced, the disappearance of the perianth chlorophyll is promoted, so that the peculiar unique color becomes lighter and clearer. According to the results shown in Table 3, it was confirmed that the pericarp chlorophyll (13.7 mg / m 2) applied with the offset printing fruit seal was reduced by 16.8% or more as compared with the pericarp chlorophyll (16 mg / . As a result of measuring the color of the embryo cultivated by applying the offset printing fruit seal and the gravure printing fruit bag by the method of L ^* , a ^* , b ^* colorimetric system, it was found that the embryo with the fruit bag of the embodiment, (L ^* ) and chromaticity indices (a ^* , b ^* ), respectively, as compared to the values of the lightness index (L ^* ).

Therefore, by using the offset printing fruit bag of the present invention, it is possible to harvest more bright and bright colored pears with low green color and golden color due to lowering of perilla chlorophyll value of fruits.

The specific embodiments described herein are representative of preferred embodiments or examples of the present invention, and thus the scope of the present invention is not limited thereto. It will be apparent to those skilled in the art that modifications and other uses of the invention do not depart from the scope of the invention described in the claims.

Claims (11)

And a water-repellent coating layer formed on the black offset printing layer, wherein the light transmittance is in the range of 40-50 g / m < ² > Eco-friendly offset printing pouch comprising an inlay with a basis weight of 40-50 g / m ² , with 51 to 59% of air permiability of 76 to 85 sec / 100 ml,
delete The eco-friendly offset printing pouch according to claim 1, wherein the light transmittance of the cover is adjusted to 60-70% through the first adjustment step and 51-59% through the second adjustment step.
The method according to claim 1, wherein the envelope permeability is controlled to be 30-50 sec / 100 ml sequentially through a first-order regulating step; Adjusted to 65-75 sec / 100 ml through a secondary control step; And is adjusted to 76-85 sec / 100 ml through the third regulating step.
The method according to any one of claims 3 and 4, wherein the primary adjustment step comprises papermaking a recycled pulp with a bilaborative paper machine to produce a cover paper, wherein the secondary adjustment step is performed through the primary adjustment step And performing offset printing using the black ink on the prepared cover paper. ≪ RTI ID = 0.0 > 8. < / RTI >
6. The eco-friendly offset printing pouch according to claim 5, wherein the offset printing is performed by controlling the ink transfer amount to 4.50 g / m < ² >.
5. The eco-friendly offset printing pouch according to claim 4, wherein the third adjusting step is a step of performing coating and water repellent processing on the cover paper covered by the offset printing through the secondary adjusting step.
a) Using a recycled pulp and a twin-screw paper machine to produce a cover paper for a bipolar paper having a basis weight of 40-50 g / m ^2, whose light transmittance and air permeability are first adjusted to 60-70% and 30-50 sec / 100 ml, respectively A first step;
b) a second step of secondarily adjusting the light transmittance and the transparency by performing offset printing using black ink after winding the cover paper for the encapsulation paper;
c) performing a coating and water repellent treatment on the paper of the offset printed wedge paper cover to prepare the cover of the bag by tertiary adjustment of the air permeability; And
d) a fourth step of preparing a bag for wrapping the cover and the cover of the bag;
Wherein said method comprises the steps of:
9. The method of claim 8, wherein the offset printing is performed by controlling the ink transfer amount to 4.50 g / m < ² >.
The method according to claim 8, wherein the secondary control adjusts the light transmittance to 51-59% and the air permeability to 65-75sec / 100ml.
The method according to claim 8, wherein the third degree of adjustment is such that the degree of permeability is adjusted to 76-85 sec / 100 ml.

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