KR20140093911A - The functional plastic card to content some of silicic and carbonic powder - Google Patents

Abstract

The present invention provides a functional card with a radiation function, which is made of plastic and contains a silica material and a carbon material to suppress harmful substances due to mold by far-infrared radiation, thereby making surroundings pleasant. An example of the present invention belongs to a manufacturing technique of a card field for manufacturing a functional plastic card containing silica and carbon, which is manufactured into the size of a cigar box considered to be harmful or a simple business card or a bookshelf properly placed on the living space for an easy life to be used. According to the present invention, a medical antiphlamine-coated card developed with the purpose of alleviating skin inflammation on the market is manufactured to protect the skin before causing inflammation, unlike a medical card developed with the purpose of treating inflammation after the card causes the inflammation. If a user frequently places the medical antiphlamine-coated card on the living space while keeping the card as home accessories, the card can block allergy due to harmful mold and insects and can promote the activation of the body with a folk remedy while boosting human capabilities. The present invention provides a low-priced disposable card with a radiation function as a pure private precaution, not the existing medical card used to treat inflammation, in order to prevent a secondary infection due to mold and bacteria induced by pure private remedies. The low-priced disposable card is manufactured to be distributed without being against the medical law, thereby being welcomed by the low-income bracket and contributing to protection of the skin without using a new medical method.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a functional plastic card containing silica and carbon as a powder,

The principle of producing a functional plastic card containing the silica powder and the carbon powder of the present invention is that when the plastic is used as a versatile envelope, it is not decomposed and dissolved for a long period of time when used as a multi-purpose envelope, In the case of producing a polyethylene vinyl film as an envelope, a master batch method of mixing a petroleum-based polyethylene material with an affinity-free abrasive is applied to a mixed plastic bag injected with a mixed material to emit far-infrared rays It belongs to the manufacturing technology of polymeric chemicals manufactured so that it can be put in a pocket instead of an envelope, and it is a product manufacturing technology of a household goods field which is made with a card so that it can be placed on a living quarters.

Therefore, while it is very difficult to inject thinly with a vinyl film, the card making method of the present invention is somewhat thick, which is easy to inject, and the technique of injecting a thick card with carbon produced from silica minerals and charcoal in the stone is not difficult, It is also a field of production technology without problems.

In order to be able to mix two materials having no affinity so as to have the decomposing power of a plastic bag made of a vinyl film, first of all, a small amount of a mixture of a small quantity of a fine powder and a large amount of a polyethylene material, And a master batch chip already compounded with an electric potential.

Since the functional plastic card containing silica and carbon of the present invention causes physical disability due to harmful substances and noise generated in automobile soot, various building materials and surrounding environment, it is possible to purify the polluted environment temporarily for a while in a pleasant resting space To make a card made of a petrochemical product, which is already made of a plastic card, it is necessary to mix it with a silica material, a carbon material, and these polymers. The modified anion polymerized polymer previously developed by Application No. 10-2006-7001125 (2006.01.17.) And the method of producing antibacterial plastic card of Application No. 10-2004-0072430 (September 10, 2004) And the master batch of Application No. 10-2012-0074964 (Jul. 10, 2012) and the technology of the product manufactured using the same, I made it as a background technology.

Technique for manufacturing a product as a material requiring interfacial activation of application No. 10-2001-0001044 as a technique of mixing a dust-free inorganic filler and a surfactant used for producing a master batch for plastic film molding already developed is also important The prior art described above is also a background of the present invention.

The prior art for injecting a card with a radiation function into a polymer called plastic is that a multifaceted study on dislocation processing is required for the manufacture of a product having uniformity of mixing by homogeneous mixing and homogeneous mixing of substances having no affinity, .

It is difficult to inject thinly powdered stone powder which has no affinity with a polymer substance uniformly. Therefore, prior art is being studied as a research subject, and a silica card system and a carbon system are separated from each other for a far-infrared radiation, Since the far-infrared rays emitted from the carbon are transmitted light, the material to be positioned at the center and attached to the outside is made of silica rather than transmitted light.

As a means of solving the problems in the present invention, firstly, a task for deeper research on a process of performing preliminary potential machining for mixing and mixing between materials having no affinity is selected, and a task for postprocessing As a solution.

There are no special research subjects, but the two types of plastic cards are superimposed and combined with a slightly thick card. However, since the general card for cover is used as a cover, To lay the functional plastic card on the floor as a support.

Unlike ordinary cards, the plastic cards having a radiation function processed by the present invention are irradiated with far-infrared rays emitted from carbon, which are not studied in detail yet. Therefore, they are covered with a silica-containing plastic card, Therefore, it is anticipated that buyers will gain more trust from those who want to purchase and use the product in anticipation of unexpected risks.

It is expected that the physical disease that can be caused by the helplessness that invades the body organ due to environmental factors is enhanced by the plastic card of the present invention having the simple far-infrared ray radiation function, thereby enhancing the immunity enhancement and self-renewal will by oneself.

Fig. 1 is a top view of a product to be processed after injection with the present plastic card,
2 is a perspective view of a product manufactured by injection and cutting according to the present invention,
3 is a view showing a processing step of the plastic card of the present invention,
Fig. 4 is a graph showing the blending ratios of the materials produced by the silica master batch of the present invention,
Fig. 5 is a graph showing the mixing ratios of the materials produced by the carbon master batch of the present invention,
6 is a graph showing the relationship between the master batch of each material of the present invention and the high-
Fig. 7 is a numerical value chart of far-infrared radiation amount measurement of the functional plastic card of the present invention,
<Brief Description of Symbols>
10: Carbon board, 12: Small carbon,
14: carbon card, 20: silica board,
22: platelet silica, 24,26: left and right silica card,
30: support card, 32: support card axis,
34: auxiliary card, 40: functional card,
Stage 1: Material preparation, Stage 2: Dislocation processing.
Step 3: Postprocessing, Step 4: Cutting the product,
Step 5: Assembling the product, Step 6: Storage shipment,

In the material preparation (the first step) , the silica raw material generally uses zeolite and yellow clay, tourmaline is used as tourmaline, silica silicate and diatomaceous earth, so it is convenient to purchase and the carbon raw material is made of charcoal powder Can be obtained from itself.

High Density Polyethylene (HDPE) is a petrochemical product commonly called 'HDPE'. It is made of white particles like white rice. It can be injected with a hot melt injection device, It is also used as high quality polyethylene material (low density polyethylene) for better quality, considering that this product is used as a material to purify many pollutants gathered around us, rather than low density polyethylene.

The general plastic card means that the material of the backing card 30 attached to the back of the plastic functional card 40 for standing on the desk or the ark can be made of a low density polyethylene material, When the functional card 40 is stored together with the functional card 40, the bottom side of the functional card 40 is folded to one side surface of the auxiliary card 34 connected to the cylindrical, .

Manufacturing method there is reproduced a second fine stone dust amount, such as a conventional silica or yellow clay into small particles of polyethylene and mixed and the gray particles was cut very short inner pulled back into small particles and to melt a thin yarn emits a method for producing in this way the potential (Step 2) , and the fine particles of the fine particles are mixed with the high-density polyethylene again while assisting the affinity with the mixed polyethylene. When the fine particles are injected again, they are injected into the pale gray silica board 20, do.

(Third step) with a master batch chip mixed with a small amount of charcoal fine powder in a high density polyethylene and a molten injector, and the carbon board 10 is exposed in the product cutting (fourth step) A plurality of carbon cards 14 are formed by cutting the carbon black 12 to a length corresponding to the business card size, and then cut into the cut of the business card 20, .

When the silica board 20 is cut into a name card size as in the case of the carbon card 14 and cut into long plastic silica 22 and cutting the plastic silica 22 into a business card size length, The carbon card 14 is sandwiched between the left and right silica cards 24 and 24 attached to the one carbon card 14 and the other silica card 26, , 26).

Since the function card 40 is to be used in the indoor or living room in the assembly of the product (fifth step ) as described above, the support card 30, which is made of a general plastic card, 26, 40), and one side surface of the auxiliary card (34) accommodating both the carbon card (14), the two silica cards (24, 26) and one side surface of the receiving card When the support card 30 is connected and the support card 30 is folded, when the function card 40 is included in the function card 40 and is opened at 90 degrees and laid down, Is vertically erected.

[Example 1]

(HDPE) in the preparation of the material (first step) according to the processing diagram of the plastic card of the present invention (Fig. 3), and the silica stalactite is a tourmaline which is a tourmaline tourmaline, Zeolite was purchased and secured, and the carbon powder was pulverized with charcoal, and the same ultra-fine particles as the tourmaline were prepared by the autoclave to obtain a vinyl film manufacturing plant to prepare a master batch chip.

All the materials are secured by the material preparation (the first step), and then commissioned to a factory that has been reserved in advance. First, tourmaline and zeolite are mixed in the same amount as silica stone, and the mixed stone is blended with white high-density polyethylene (HDPE) As shown in FIG. 4, the mixing ratios of the materials prepared with the silica master batch of the present invention (FIG. 4) were mixed with 94 wt% of polyethylene and 6 wt% of silica material, (Second step) was carried out.

After securing the silica masterbatch chip, the melting apparatus, which has not been used for a long time, was operated to avoid the carbon powder requiring clean cleaning of the melting apparatus. The carbon material of 3 wt% of charcoal powder and 97 wt% of high density polyethylene (HDPE) (FIG. 5) were also mixed together to obtain a carbon master batch chip.

The silica master batch chip and the carbon master batch chip obtained by proceeding the dislocation processing (second step) as described above and the high density polyethylene chips prepared separately are placed in the master batch of each material according to the present invention All of the post-processing (third step) of securing and processing the material to be blended based on the mixing ratio with the high-concentration PE (Fig. 6) was carried out without interruption.

To obtain the left and right silica cards 24 and 26 attached to both sides of the functional card 40 of the present invention, a silica board 20 was blended with 90 wt% of a newly prepared high density polyethylene chip and 10 wt% The injection silica board 20 is cut to a size of a business card width used in the market, cut into small pieces of silica 22, cut into a business card size, and a plurality of left and right silica cards 24, Respectively.

Next, in order to obtain a carbon card 14 as a core, 10 weight% of a carbon master batch chip was mixed, and high-density polyethylene chips prepared separately were mixed in a uniform amount of 90 weight% and injected into an injector by a predetermined amount to obtain a carbon board 10 At this time, since the carbon powder was made of chips, the injection machine was not contaminated.

After all of the post-processing (the third step) as described above is carried out, all the manufactured carbon boards 10 and all the silica boards 20 are loaded and moved to the assembly place, and then the product is cut The carbon board 10 and the silica board 20 are cut into a size of a commercial name card size and cut into small pieces of carbon 12 and small pieces of silica 22, (24, 26) and secured with sufficient material.

Since the support card 30 which has been separately prepared has been already distributed in the market, it is purchased and cut to the same standard as the cards 14, 24, and 26, and the support card shaft 32 is manufactured and inserted. Is attached to one side surface portion of the functional card (40) composed of the left and right silica cards (24, 26) and the carbon card (14) sandwiched between the left and right silica cards on one surface of the auxiliary card (34) And the support card 30 connected to the support card 34 and the support card shaft 32 covers the outer surface of the left silica card 24 which is one side of the function card 40. The support card shaft 32 ) was because the bottom surface if you put a functional card 40 is assembled to raise up the daughter card 34 is located in support card (30) also Lay adjuster functional card 40 rotation performed without a hitch for product assembly (fifth step) Could.

The functional card 40 of the present invention manufactured in the product assembling step (step 5) is provided to the interested parties who are interested in confirming the quality and function of the product before proceeding to storage and delivery (step 6) In order to prove this, the construction life environment test institute commissioned the Institute of Constructional Environment Test to measure the far infrared ray emission amount of the functional plastic card according to the present invention (Fig. 7) (6th step) because it was able to confirm the excellence with the numerical value exceeding.

Claims (2)

1. A functional plastic card comprising silica and carbon in powder form,
A carbon card 14 made by cutting a chip produced by disposing a charcoal powder and a high density polyethylene chip into a carbon master batch chip and then a high density polyethylene chip and a carbon board 10 injected by a post- Wow
A chip manufactured by dislocation processing by mixing tourmaline and zeolite mixed with a high density polyethylene chip is injected into a silica board 20 in the same manner as the carbon master batch chip and cut into the carbon card size, The cards 24,
The right silica card is attached to the right outer surface of the carbon card and the left silica card is attached to the left outer surface of the other side to fabricate the functional card 40. The bottom surface of the functional card is supported on the support card shaft 32, and the support card is folded together and folded down to stand alone, and a functional plastic card containing carbon powder A method for producing a functional plastic card in which silica and carbon are contained as powders,
3% by weight of the charcoal powder obtained by the material preparation (the first step) and 97% by weight of the high-density polyethylene chips were made into a carbon master batch chip in a melting apparatus, and 6% by weight of high-density polyethylene after the chip 94 potential processing a silica master batch chips to% by weight (second stage) the carbon board 10 in the above-mentioned carbon masterbatch chips 10% by weight and a new high-density polyethylene chips processed to 90% by weight of the rear (third step) The silica board 20 is injected with 10% by weight of the silica master batch chip and 90% by weight of the new high density polyethylene chip while being cut , and the carbon board is cut into the business card size in the product cutting (step 4 ) And the silica board was also made into left and right silica cards (24, 26) according to the carbon card standard
The left and right silica cards are attached to the left and right sides of the carbon card in the product assembly (fifth step) to form the functional card 40, and the underside of the functional card is connected to the supporting card shaft 32 34, and folded into a card of one body when folded into a card of the body connected to the card axis of the card, and the functional card is folded up when the card is unfolded, and the functional card of carbon containing powder of carbon How to make

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