KR102610666B1 - PE resin and the manufacturing method of the same - Google Patents

Abstract

The present invention relates to an eco-friendly polyethylene resin and a method for producing the same, and more specifically, to a polyethylene resin, comprising the steps of adding a composition containing zeolite, sodium chloride, hydrogen peroxide, and cationic electrolyzed water as a solvent to prepare a mixture; Aging the mixture; and warming the aged mixture to impregnate the zeolite with polyethylene resin, wherein when the weight of the polyethylene resin is 100 parts by weight, 30 to 50 parts by weight of zeolite, 0.1 to 3 parts by weight of sodium chloride, and 3 parts by weight of hydrogen peroxide. A method for producing a polyethylene resin is provided, characterized in that ~7 parts by weight is added.

Description

Polyethylene resin and method of manufacturing the same {PE resin and the manufacturing method of the same}

The present invention relates to a polyethylene (PE) resin from which harmful substances contained in polyethylene raw materials can be removed by adding an additive for absorbing harmful substances to polyethylene (PE) resin, and a method of manufacturing the same.

Polyethylene resin is used as a raw material to manufacture products such as food containers, plastic gloves, plastic packaging, and plastic packs. However, hazardous chemicals are detected in these products, and these hazardous chemicals are mixed with these products during the process of using them. It is transmitted to objects it comes in contact with and causes harmful effects. In particular, when food comes into contact with products made from polyethylene resin, harmful substances are leached out of the food, and as a result, harmful substances are absorbed into the human body, which can act as a hazard to health. This situation requires improvement. am.

In particular, when various products made from polyethylene are used for food purposes, the approval standards are different from those for non-food purposes and must meet more stringent standards. When products made from polyethylene resin are tested according to the food approval standards, cadmium, lead, mercury, hexavalent chromium, toluene, potassium permanganate, benzophenone, etc. are detected, and these ingredients are subject to the acceptance standards for non-food use. However, when used for food, these acceptance standards cannot be used as is. Lyrics Even if these harmful ingredients are within the permitted standards, the product cannot be said to be harmless to the human body if used for food.

Meanwhile, the technology of manufacturing products by mixing zeolite with polyethylene is a known technology, and is used as antibacterial food packaging material, retort packaging material, etc., and can be said to be a known technology. In addition, it is often manufactured by adding various functional additives to it. However, when simply mixing zeolite and polyethylene and adding functional additives as needed, the crosslinking state of zeolite and polyethylene is often poor in the final product, and in addition, unnecessary bubbles are generated in the packaging material, whitening occurs, or the zeolite itself is damaged. There are many cases where the color changes over time, so improvement is needed.

Republic of Korea Patent Publication No. 2019-0093338 (2019. 08. 09)

The present invention was developed to solve the problems of the prior art described above. A composition containing zeolite, sodium chloride, hydrogen peroxide, and a solvent is added to polyethylene resin, aged for a certain period of time, and then stirred and heated to produce food containers and plastic gloves. We manufacture vinyl products that are frequently used in daily life, such as plastic packaging and plastic packs. This is an eco-friendly polyethylene resin and method of manufacturing the same that ensures safety without emitting harmful substances during the process of using the above vinyl products as well as after disposal. The purpose is to provide.

In addition, the present invention provides an eco-friendly polyethylene resin that enables the production of products in good condition without generating unnecessary bubbles in the product when a product is manufactured by mixing zeolite and polyethylene resin by adding more ethanol, and a method of manufacturing the same. The other purpose is to provide.

Another purpose is to provide an eco-friendly polyethylene resin that oxidizes and decomposes harmful substances themselves by adding hydrogen peroxide, and a method for manufacturing the same.

In addition, another object of the present invention is to provide an eco-friendly polyethylene resin and a method for producing the same, which can increase the storage properties of zeolite and prevent discoloration by sufficiently maturing the mixture after preparing it.

In order to achieve the above-mentioned object, the present invention includes the steps of preparing a mixture by adding a composition containing zeolite, sodium chloride, hydrogen peroxide, and cationic electrolyzed water as a solvent to a polyethylene resin; A mixture aging step, which is a process of heating the mixture to a temperature of 38 to 42 ° C and maintaining it for 10 to 18 hours; Impregnating the zeolite with a polyethylene resin while heating the aged mixture to a temperature range of 58 to 63°C, wherein when the weight of the polyethylene resin is 100 parts by weight, zeolite is contained in an amount of 30 to 50 parts by weight, and sodium chloride is contained in an amount of 0.1 to 0.1 parts by weight. A method for producing a composition containing a polyethylene resin is provided, wherein raw materials containing 3 parts by weight and 3 to 7 parts by weight of hydrogen peroxide are added.
In the step of preparing the mixture, when the weight of the polyethylene resin is 100 parts by weight, it is preferable that 0.3 to 2 parts by weight of ethanol are further included.
In addition, the present invention is a composition comprising a polyethylene resin, zeolite, sodium chloride, hydrogen peroxide, and cationic electrolyzed water as a solvent. The composition contains 30 to 50 parts by weight of zeolite and 0.1 parts by weight of sodium chloride when the weight of polyethylene resin is 100 parts by weight. Provides a composition containing a polyethylene resin, characterized in that it contains ~3 parts by weight and 3 to 7 parts by weight of hydrogen peroxide.

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According to the present invention as described above, a composition containing zeolite, sodium chloride, hydrogen peroxide, and a solvent is added to a polyethylene resin, aged for a certain period of time, stirred, and heated to be used in everyday life such as food containers, plastic gloves, vinyl packaging, and plastic packs. By manufacturing frequently used vinyl products, we can expect the effect of ensuring safety without emitting harmful substances during the process of using the above vinyl products and even after disposal.

Additionally, by adding hydrogen peroxide, the effect of oxidizing and decomposing the harmful substances themselves can be expected.

In addition, by adding more sodium chloride and ethanol, when a product is manufactured by mixing zeolite and polyethylene resin, unnecessary bubbles are not generated in the product and the effect of enabling the production of a product in good condition can be expected.

In addition, by sufficiently maturing the mixture after preparing it, the effect of increasing the storability of zeolite and preventing discoloration can be expected.

Figure 1 is a process diagram for manufacturing an eco-friendly polyethylene resin composition in which zeolite is well mixed according to an embodiment of the present invention.
2 to 4 are known devices for manufacturing gloves.
Figures 5 and 6 are test reports for the detection of hazardous substances by food utensils and container packaging of polyethylene gloves made from the composition of the present invention.

Hereinafter, with reference to the attached drawings, embodiments of the present invention will be described in detail so that those skilled in the art can easily implement the present invention. However, the present invention may be implemented in many different forms and is not limited to the embodiments described herein. In order to clearly explain the present invention in the drawings, parts that are not related to the description are omitted, and similar parts are given similar reference numerals throughout the specification.

Throughout the specification, when a part is said to “include” a certain element, this means that it may further include other elements rather than excluding other elements, unless specifically stated to the contrary.

Additionally, terms such as “… unit” and “… unit” used in the specification refer to a unit that processes at least one function or operation.

Figure 1 is a process diagram for manufacturing an eco-friendly polyethylene resin composition mixed with zeolite according to an embodiment of the present invention. 2 to 4 are known devices for manufacturing gloves. In other words, by manufacturing the composition of the present invention, various household application products such as gloves and packaging materials can be manufactured, and plastic gloves for food, etc. that do not generate harmful substances due to the adsorption effect of zeolite can be manufactured. Such gloves and the like are manufactured using known devices, and the present invention discloses a glove manufacturing device as an example.

In one embodiment, the present invention includes the steps of preparing a mixture by adding a composition containing zeolite, sodium chloride, hydrogen peroxide, and cationic electrolyzed water as a solvent to a polyethylene resin; A mixture aging step, which is a process of heating the mixture to a temperature of 38 to 42 ° C and maintaining it for 10 to 18 hours; Impregnating the zeolite with a polyethylene resin while heating the aged mixture to a temperature range of 58 to 63°C, wherein when the weight of the polyethylene resin is 100 parts by weight, zeolite is contained in an amount of 30 to 50 parts by weight, and sodium chloride is contained in an amount of 0.1 to 0.1 parts by weight. Provides a method for producing a composition containing a polyethylene resin, characterized in that raw materials containing 3 parts by weight and 3 to 7 parts by weight of hydrogen peroxide are added.

That is, in the present invention, uniformity of mixing and short- and long-term stability of the mixed state are important, and for this, the zeolite must be well dispersed in the composition, and for this purpose, sodium chloride and ethanol were added. In particular, sodium chloride and ethanol are used as preservatives, but in the present invention, their uses are different. In particular, zeolite does not fall off from polyethylene, and therefore, errors rarely occur in the product when manufacturing products made of polyethylene, such as polyethylene gloves.

The pores of the zeolite must be partially impregnated with polyethylene so that the zeolite is well bonded to the polyethylene resin. This state must be maintained for the zeolite to perform its function without falling off in the final product.

First, in the present invention, it is important that the zeolite and polyethylene resin are well mixed. In particular, it is important that the polyethylene resin is well impregnated into the pores of the zeolite, and the results must be controlled so that unnecessary pores do not exist in the final product.

For this purpose, sodium chloride and ethanol were used. As a result of using sodium chloride and ethanol, it was experimentally confirmed that the composition was well dispersed and mixed and that no pores were generated in the final product. Therefore, adding more sodium chloride and ethanol in the present invention has great significance in mixing polyethylene and zeolite.

Here, when the amount of polyethylene resin was 100 parts by weight, the addition amounts of sodium chloride and ethanol were 0.1 to 3 parts by weight and 0.3 to 2 parts by weight, respectively. If it exceeds the lower limit of the above ranges, the dispersion state of the zeolite in the polyethylene resin is poor. If it exceeds the upper limit of the above range, the elasticity of polyethylene decreases and the quality deteriorates. Therefore, the content of the above additives has critical significance within the above range.

On the other hand, hydrogen peroxide is believed to partially perform the oxidative decomposition action of harmful substances, and is added at 3 to 7 parts by weight. If it is outside the lower limit of the above range, it cannot perform the oxidative decomposition action on harmful substances. If it is added in excess of , there is a problem that the physical properties of the final polyethylene product are not good because it causes denaturation of the polyethylene resin. Therefore, hydrogen peroxide has its critical significance in the above weight range.

Meanwhile, in the present invention, an aging process was performed. A mixture was prepared by adding sodium chloride and ethanol to polyethylene resin, and the mixture was aged for 10 to 18 hours. It was found that there was a difference in the denaturation of zeolite when compared to the composition that was not aged for the above time.

In other words, when aged for a predetermined period of time, the storage properties of zeolite improve and the inherent gloss and transparency of polyethylene are maintained even if the product is manufactured several days after the zeolite and polyethylene mixture is manufactured. However, if not aged, the zeolite's inherent gloss and transparency are maintained after the mixture is manufactured. After a few days, a yellowish coloration occurred during product manufacturing, transparency also decreased, and the quality value was greatly reduced. Therefore, the maturation process during the above time is very important. In addition, maintaining this color and securing transparency is affected by the heating temperature of 38~42℃. In other words, the aging effect is enhanced only through the heating process, and the long-term storage properties of zeolite become excellent. This has been experimentally confirmed.

Thereafter, it is preferable to further include the step of heating the composition in which zeolite is impregnated into polyethylene to a temperature range of 58 to 63° C. The meaning of this heating process is related to the impregnation of polyethylene in zeolite. When the heating process is performed in this way, the impregnation of polyethylene into the zeolite is better achieved, and after the heating is completed, the polyethylene resin is impregnated into the surface pores of the zeolite to achieve an excellent bonding state with the zeolite. Therefore, the rate at which zeolite falls off from polyethylene resin can be greatly reduced.

The present invention secures various process variables and types of additives to achieve excellence in the manufacturing process and quality in the production of polyethylene products containing zeolite, and its characteristics can be recognized from this perspective.

In particular, as can be confirmed through the test reports shown in Figures 5 and 6, the polyethylene gloves (disposable sanitary gloves) manufactured by the present invention contain lead, 1-hexene 4% acetic acid, 1-hexene water, and 1-hexene. n-heptane, 1-octene 4% acetic acid, 1-octene water, 1-octene n-heptane, etc. were not detected, and potassium permanganate, 4% acetic acid, and m-heptane were also detected below the standard level, so polyethylene gloves were recommended for food preparation. You can use it safely without worrying about harmful substances. In addition, the action of zeolite prevents the growth of mold and removes odors with its excellent deodorizing function.

The eco-friendly polyethylene resin manufactured as described above can be safely and usefully used in food containers, plastic gloves, plastic packs, and vinyl packaging materials.

Meanwhile, an example of a product that can be manufactured using the polyethylene resin of the present invention is disposable sanitary gloves made of polyethylene, and known devices can be cited as examples of devices for manufacturing them.

Figure 2 is a side view showing the configuration of a known disposable sanitary glove manufacturing device. As shown in FIG. 2, the disposable sanitary glove manufacturing apparatus 100 includes a vinyl supply unit 110 that supplies two-layered vinyl 10 released from a vinyl roll in a first direction, and a vinyl supply unit 110. A vinyl cutting unit 120 that cuts one end of the supplied vinyl 10 to a certain length, a vinyl fusion unit 130 that fuses the vinyl 10 at the same time as the vinyl cutting unit 120 cuts the vinyl, and the cut and fused vinyl. It includes a vinyl transfer unit 140 that transfers in a second direction (hereinafter the same) perpendicular to the first direction.

In addition, it is disposed between the vinyl transfer unit 140 and the second table 30 and rotates at a constant speed to lower the vinyl 10 pressed by the vinyl press member between the vinyl transfer unit 140 and the second table 30. It further includes a rotating lowering portion 150.

The disposable sanitary glove manufacturing apparatus 100 has a vinyl supply unit 110, a vinyl cutting unit 120, a vinyl transfer unit 140, a rotation lowering unit 150, and a vinyl fusion unit 130 in a first direction in which vinyl is supplied. By placing them sequentially, disposable sanitary gloves can be manufactured.

In addition, as shown in FIG. 3, the vinyl fusion unit 130 can be raised and lowered simultaneously with the cutting of the vinyl 10 by the vinyl cutting unit 120 to fuse and cut the vinyl 10. The vinyl fusion portion 130 may include a molding member 131 formed in the shape of a hand and a heat fusion member 133 that fuses and cuts the vinyl 10 on the outside of the molding member 131. The molding member 131 is formed as a plate in the shape of a hand (i.e., including a finger shape and a palm shape) and can press the vinyl 10 into the shape of a hand as it moves up and down simultaneously with the vinyl cut part 120. The molding member 131 can facilitate cutting and fusing the heat-sealing member 133 by pressing the vinyl 10 in the shape of a hand. For example, the molded member 131 may be made of heat-resistant steel. The heat-sealing member 133 is arranged in a finger shape around the molding member 131 to heat-seal the vinyl 10. The heat-sealing member 133 may be heated to a certain temperature in order to fuse and cut the vinyl 10 at the same time. The heat-sealing member 133 is formed to be inclined at a certain angle, and has a heat wire inserted therein or is formed with an infrared irradiator, so that the vinyl 10 can be fused and cut at the same time.

Additionally, as shown in FIG. 4, the vinyl transport unit 140 transports the cut and fused vinyl in a second direction perpendicular to the first direction. The specific number may be determined by the user and may be set to 50, for example. The second direction corresponds to a direction perpendicular to the first direction in which the vinyl 10 is supplied. The vinyl transfer unit 140 is formed at the same height as the first table 20 and the second table 30 to facilitate transfer of the vinyl 10 supplied to the vinyl fusion unit 130. The vinyl transport unit 140 includes a conveyor member 141 for transporting the vinyl 10, a vinyl fixing pin 143 for fixing the vinyl 10, and a counting unit 145 for counting the number of stacks of the vinyl 10. can do.

It should be noted that the above-described embodiments are for illustrative purposes only and are not intended for limitation. Additionally, an expert in the technical field of the present invention will understand that various embodiments are possible within the scope of the technical idea of the present invention.

100: Disposable sanitary gloves manufacturing device 110: Vinyl supply unit
120: Vinyl cutting part 130: Vinyl fusion part
140: Vinyl transfer unit 150: Rotation lowering unit
10: vinyl 20: first table
30: second table

Claims (4)

Preparing a mixture by adding a composition containing zeolite, sodium chloride, hydrogen peroxide, and cationic electrolyzed water as a solvent to polyethylene resin;
A mixture aging step, which is a process of heating the mixture to a temperature of 38 to 42 ° C and maintaining it for 10 to 18 hours;
Impregnating the zeolite with polyethylene resin while heating the aged mixture to a temperature range of 58 to 63°C;
Includes,
A composition containing polyethylene resin, characterized in that raw materials containing 30 to 50 parts by weight of zeolite, 0.1 to 3 parts by weight of sodium chloride, and 3 to 7 parts by weight of hydrogen peroxide are added when the weight of the polyethylene resin is 100 parts by weight. Manufacturing method. delete According to paragraph 1,
In the step of preparing the mixture,
A method for producing a composition containing a polyethylene resin, characterized in that 0.3 to 2 parts by weight of ethanol is further included when the weight of the polyethylene resin is 100 parts by weight. It is a composition containing polyethylene resin, zeolite, sodium chloride, hydrogen peroxide, and cationic electrolysis water as a solvent,
The composition contains a polyethylene resin, characterized in that it contains 30 to 50 parts by weight of zeolite, 0.1 to 3 parts by weight of sodium chloride, and 3 to 7 parts by weight of hydrogen peroxide, based on 100 parts by weight of polyethylene resin.