KR20040080107A - Multiple Environment-Friendly Textile for Ability of Antibiotic and Deodorize and Fragrance and its Method - Google Patents

Abstract

PURPOSE: A composing and a finishing methods of multifunctional fiber having antibacterial property, deodorization and aromatic character are characterized by using natural antibacterial agent and a nano aromatic capsule developed by nano particle technology without any chemical additive and being environmentally friendly. CONSTITUTION: The composition of multifunctional fiber comprises 2-5wt.% of natural antibacterial agent extracted from plants, 2-5wt.% of a nano capsule containing natural aroma and water. The fiber is obtained by finishing the composition with 100-200deg.C of hot blast.

Description

Multi-environment-Friendly Textile for Ability of Antibiotic and Deodorize and Fragrance and its Method}

The present invention relates to the composition of a 'multi-functional eco-friendly fiber' containing antibacterial function and thereby deodorizing function to prevent the incubation of bacteria, and even smelling function, the smelling function is generally 'natural flavor' of the conventional 'micro flavor capsule' 'Nano-capsule' (hereinafter referred to as 'nano-flavored capsules') is applied to increase the persistence of existing fragrances with countless number of capsules and even distribution. Or environmentally friendly fibers that are post-processed without additives.

The direction of the prior art has generally proposed an effective method mainly on a specific short function, but in recent years, according to the consumer's interest in the multifunctionality and the demands of the times, the direction has been changed to a product having a multi-functionality. Accordingly, the prior art has tried to solve the laundry fastness and antibacterial, fragrance persistence with various chemical additives. But. This provides the primary and secondary sources of pollution and creates additional technology development and costs to clean it up.

Therefore, the present invention has set the direction of the invention to simplify the processing and improve in terms of environment-friendly. Accordingly, the problems in the prior art will be described in terms of 'environmentally friendly'.

If you look at the conventional technology in two directions,

Firstly, it can be divided into two types for the purpose of antibacterial and deodorization. One of them is the protection of the fiber, the prevention of pigmentation, the protection of the fiber from microorganisms during storage, and the other, the hygienic maintenance of the living environment and infectious diseases. There are aspects of user protection, such as prevention, prevention of odor, suppression of parasites, protection of patients, elderly skin from acupuncture, and secondary infections in hospitals.

In all environments where humans live, bacteria and fungi multiply anywhere when growth conditions are met, and consumers are increasingly interested in hygiene, producing antimicrobial agents to satisfy them.

Examples of the antimicrobial agents include inorganic (antibacterial zeolites, etc .; applied to Patent No. 10-0289028), metals (silver sulfonate, iron phthalocyanate, etc .; applied to Japanese Patent Application No. 1996-7004107), and ammonium salts (Public Publication; 1999). -011252), guanidine-based, copper compound-based (Japan-Thunderron, Asahi-BCY), natural products (chitosan), etc., in most cases inexpensive ammonium-based or guanidine-based to give antimicrobial properties to the fiber These organic compounds are not recommended from the environmental point of view, such as providing specific pollutants generated during processing due to exposure to various toxic substances such as carcinogens and human body. Due to the regulation, it is difficult to be competitive anymore. In addition, chitosan and the like, but also to improve the washing fastness using high frequency attachment and a few additives to supplement the problem of washing resistance, but still has a problem of fastness.

As described above, the existing antimicrobial agents are most organic compounds, which directly or indirectly damage the human body. The use of chemical additives is not free from environmental aspects, and there are many problems to be improved, such as washing fastness.

Secondly, when looking at the conventional techniques for smelling, the fragrance industry is emerging in recent years, such as giving aromatherapy to various medicines, beddings, and jewelry as deche medicine.

The fragrance can be divided into artificial synthetic and natural fragrance. Synthetic artificial fragrance is inhaled by the human body and delivered to the brain and is not absorbed into the brain cells, but remains as it is, causing various symptoms such as headaches. It makes a considerable sense of rejection, so the use is much reduced. On the other hand, natural fragrances do not have such side effects, and according to the fragrance, the hypnosis effect, sleep effect, appetite suppression, antibacterial, anxiety relief, etc. are recognized for its functional and emotional aspects.

Now, the fragrance technology has resulted in the research that the fragrance has a lasting amount of persistence, and in two ways, one is to wrap the airtight bag on the oil-containing collector in the oil way. There is a method of having a persistence by properly drilling a small number of fine holes on the sealing cloth, and similarly, a coating film method for forcibly releasing divergence is used, and another one is a method of maintaining sustainability by microencapsulating the fragrance itself. However, in the closed cloth method, there is a problem in that the closed cloth is broken and temporary fragrance or difficulty in re-injection makes it difficult to cause a good response from the consumer. The microcapsule fragrance has a large particle so that the capsule is broken or excessively released during the processing of the fiber. Due to the speed control is not easy, there is also a disadvantage that the smell can be insignificant in the film forming method by coating.

The present invention has been researched and created to supplement and solve the problems of the prior art, such as industrial waste and wastewater generated in the manufacturing process or processing process, which is a problem with the existing antimicrobial agent as described above, toxicity to the human body and ease of processing In order to provide textiles that can overcome the environmental trade barriers that will emerge in the future using natural antimicrobial agents extracted from plants, and to reduce the costs of costs, and provide additional textile products that satisfy consumers' emotions in this context. The problem is to improve the sustainability problem, which is a disadvantage of the existing technology in the set fragrance function, by using a nano-flavor capsule developed by nano particle technology, using a binder-free method.

The purpose of these two functions is to provide eco-friendly fiber with multi-functionality while utilizing the unique characteristics of textile products without giving a sense of foreign substances through the simplest and simplest post-processing process.

1 is a fabric processing process of the present invention

2 is a finished product processing process diagram of the present invention

3 is a photograph of an example in which the present invention is applied to a steering wheel cover for an automobile

The present invention is to overcome the limitations of the prior art and to provide a more multi-functional fiber from the simple functionality and at the same time through the environmentally friendly processing step to provide a satisfactory emotional fiber to consumers. To achieve this, a natural product is selected as an antimicrobial agent, and in particular, one of the ginkgo biloba extract antimicrobial agent (special application 0046642) and the herb extract (Herb) extract oil mixture (patent 028571) is selected to contain the natural capsule. (Special Application 0037494) and mixed in a certain ratio and then mixed with water to be used as a raw material. In most cases, in order to give an antimicrobial effect or a scent function, a binder or various chemical substances are added. However, the key point of the present invention is to add two binders in principle. To achieve this, the properties of the antimicrobial and flavor capsules are important.

Among the antimicrobial agents extracted from plants, when the stock solution is a fat-soluble liquid (herbal extract oil mixture), the emulsifier and the essential oil are processed after being water-soluble through a stirrer at a ratio of 2: 8 (adhesive maintenance ratio), but are used for the purpose of the present invention. When the herbal extract mixture is nano-encapsulated and mixed with the flavor capsule and processed together, if water-soluble it can be used with the nano-flavored capsule itself. In the case of water-soluble (ginkgo biloba leaf extract antimicrobial) it has a self-adhesion when heated to a constant temperature to maintain excellent fastness. Nano-flavor capsules are manufactured by special polymerization method to make nanoparticles applicable to fiber processing, so they are processed by heat treatment without binder and maintain strong adhesion even when boiled or washed.Inner and outer walls are made of polymer material It also acts as a protective storage and release of internal substances to the outside under certain conditions.

Taking advantage of the above two functions of natural antimicrobial agent and nano fragrance capsule, it describes the process to compose the finished fiber product by supplementing the problems of the existing technology, and the amount of fiber can contain water according to the mixing ratio (Pick Up rate) is different, so the amount to be processed and the Pick Up rate are calculated and the pick up amount is assumed to be the total weight%, and the antimicrobial agent is added 2 to 5% by weight, and the nano-flavor capsule is 2 to 5% by weight. Input. As a result of the test, the antibacterial effect is 99.9% when it is 2 ~ 3.5% by weight. However, when it is excessively added depending on the color of the fiber, there is a fear of yellowing phenomenon. In view of this, 3 to 5% by weight may be most preferable. In addition, the antibacterial effect can be maximized by inhibiting the growth of bacteria when the optimum state. In addition, when the amount of the nano-flavor capsule is less than 2% by weight, the odor is insignificant, and when the amount is 5% by weight or more, the fragrance may be too strong to give a rejection.

Slowly stir the above two materials at about 15RPM and mix the remaining weight% water into the settling plate, dipping the workpiece, so that it is sufficiently wetted with the mixed solution prepared above, and pass through the mangle. Nipping the workpiece. The following is divided, the primary is on drying at 100 ℃ dried for about 10 minutes, and the secondary processing step over the primary and the secondary drying process, the drying is completed by drying at 160 ℃ in 1-2 minutes hot air [ 1 ] . Effective fixing temperature in the first drying is between 70 ~ 200 ℃, and can be processed according to the optimum temperature of the workpiece to be processed, but preferably, as described above, the first 100 ℃ and the second 160 ℃ are most preferable. Do.

Antimicrobial and deodorant, fragrant fibers prepared by the present invention can be processed in both the state of the fabric [ figure 1 ] [ figure 2 ] , the antimicrobial power was able to see the same effect up to 40 times the results of their own experiments,

The fragrance function lasted more than 1 ~ 2 years in natural storage condition, and the wash fastness was also maintained in the self test (40 washes). In addition, even when boiled at 100 ℃ almost no destruction of the capsule. As described above, the fiber composition which suppresses the use of binders and various chemical additives is an environmentally friendly product that is harmless to skin contact and human inhalation after treatment. I think it will play a part.

Hereinafter, examples according to the present invention are presented.

The mixing rate of the fabric used in <Example 1> is 59% polyester and 41% cotton micro suede fabric, the weight of which is 240G / SQM.

The antimicrobial and fragrance mixed solution was stirred at 15 rpm with 2.5% antibacterial agent, 3% flavor capsule, and 94.5% water, respectively, processed at 100 ° C. first, and hot air dried at 160 ° C. second. Through this, the result of <Table 1> was obtained.

The above result was obtained through <Example 1>, and <Table 2> below is an evaluation of antimicrobial activity against pathogenic bacteria according to the Example, and <Table 3> and <Table 4> yielded the results by experiment. It shows the antibacterial activity according to the processing temperature and the number of washing. In addition, Table 5 shows the particle size and distribution of the microcapsules and nanocapsules during processing. The smell diffusion function may be different according to the frequency of use, the degree of friction and pressure, and the washing conditions, and it will not be illustrated as it is difficult to indicate the degree of smell. Processing of flavor capsules and natural antibacterial agents can also be processed at room temperature, so consumers can add and use them during the rinsing process. However, this method is notable for its use as a method for supplementing the function after 40 washings since its function is significantly reduced.

As described above, the eco-friendly fiber prepared according to the present invention increases the fastness of the antimicrobial agent and the flavor capsule by a proper number of times more than the conventional processing technology by adjusting the appropriate temperature conditions and processing conditions, and uses chemical additives. By not doing so, it was possible to fundamentally block harmful pollutants generated in the production process and living environment, and furthermore, it presented a direction to secure international competitiveness in the textile sector.

Claims (2)

2-5% by weight of natural plant extracts, 2-5% by weight of nanocapsules containing natural fragrance, and a composition of water by mixing the remaining weight%. Fiber and its products having antibacterial and deodorant odor function processed by hot air between 100-200 ° C. in a state in which the binder and additives are completely excluded from the composition according to claim 1.