JPS6245321B2 - - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION The present invention relates to a fabric for artificial flowers that semi-permanently emits a fragrance and a method for producing the fabric.

Artificial flowers made from fabric are produced in large quantities, as are artificial flowers made from paper or plastic, and attempts have been made to impart fragrance to these artificial flowers using various methods. The most common method is to sprinkle perfume on manufactured artificial flowers, but this method does not maintain the fragrance long enough and there is a risk that the fragrance will be gone by the time it reaches the consumer.
Moreover, it is very tedious to sprinkle perfume on each artificial flower. Therefore, in recent years, there has been a demand for fabrics for artificial flowers that have a permanent fragrance added to the material itself. One method that has been used to try to achieve this goal is to knead fragrance into the fibers or into the finishing resin, but these methods do not provide sufficient fragrance release, so they are not practical. It cannot be used for Therefore, a method using microcapsules was proposed.

It used to be that fragrances were encapsulated in microcapsules.
It is well-known because of its microcapsule shell properties and is used for various purposes. For example, by using a filter that contains fragrance in microcapsules that are destroyed by pressure, cigarettes release a scent when the filter is pressed, and by using microcapsules that are destroyed by heat, perfume is released when the iron is applied. Some are known to be attached to clothing, while others emit a scent little by little over time. Therefore, attempts were made to use microcapsules that emit fragrance over time and to attach them to fabrics for artificial flowers.

However, even if microcapsules that emit fragrance over time are attached to fabrics for artificial flowers, most microcapsules will be destroyed by heat and pressure because they are molded at temperatures of 170 to 210 degrees Celsius during the production of artificial flowers. The fragrance will scatter, making it impossible to obtain a lasting fragrance.

The present invention has been made in view of the current situation, and provides a fabric for artificial flowers that has a semi-permanent fragrance that cannot be obtained with conventional materials for artificial flowers, and a method for producing the same. If the fabric is used, it can withstand the molding temperature and pressure during the production of artificial flowers, and the resulting artificial flowers will continue to emit their fragrance semi-permanently. That is, the present invention provides an aqueous dispersion comprising a resin that has the ability to form a film by thermosetting and whose film can withstand temperatures of 170 to 210°C, and a microcapsule-type blowing agent that contains a fragrance and a thermal foaming blowing agent inside. A fabric for artificial flowers that is applied to a fabric, dried and heat treated, and a method for producing the same.

In the present invention, an aqueous dispersion consisting of a thermosetting resin capable of forming a film and a microcapsule foaming agent containing a fragrance and a thermally foaming foaming agent is applied to the fabric, followed by drying and heat treatment. As a result, a film is formed on the surface of the fibers of the fabric and between the fibers, which has minute spaces containing the fragrance inside, and the fragrance emanates little by little from these minute spaces, and the fragrance lasts semi-permanently. Furthermore, since the resin used is heat resistant, there is no risk of the fragrance scattering during the production of artificial flowers.

Any fabric that can be thermoformed may be used as the material for the fabric for artificial flowers, but it is preferable to use thermoplastic fibers that can be easily formed by heat and do not cause problems such as yellowing due to heat. , polyester fiber fabrics are most suitable.

The heat-resistant resin that has the ability to form a film by thermosetting used in the present invention must form a film that does not change in any way depending on the conditions (temperature) during artificial flower molding, and types include polyacrylic resin, There are polyurethane resins, polyester resins, etc. The microcapsule-type foaming agent having a fragrance and a thermally foamable foaming agent inside may have a heat-melting shell and contain a fragrance and a foaming substance inside. The microcapsule-type blowing agent containing a fragrance and a blowing agent therein is preferably used in a proportion ranging from 1/100 to 1/10 of the amount of thermosetting resin. If it is less than 1/100, sufficient foaming will not occur, and if it is more than 1/10, it will foam too much, making it difficult to create fine spaces in the resin.

The amount of the microcapsule-type blowing agent that has a thermosetting film-forming resin and a fragrance and a heat-foaming blowing agent inside depends on the type of resin and microcapsules, and the texture of the resulting product. It is preferable to use 1% or more based on the weight of the fiber, although the amount may vary; if it is less than 1%, it is difficult to form a sufficient film.

To apply the mixed aqueous dispersion of the thermosetting resin and the microcapsule foaming agent to the fabric, the fabric is immersed in the mixed aqueous solution and squeezed uniformly, or the mixed aqueous dispersion is applied to the fabric by spraying. There are methods such as spraying it on top.

After applying the mixed aqueous dispersion to the fabric, drying is performed by a conventional method suitable for the form of the fabric. After drying, heat treatment is performed, and the heat treatment conditions may be suitable for the type of thermosetting resin and thermally foamable microcapsule foaming agent.

Example 1 Polyester taffeta was subjected to usual scouring, dyeing, and drying, and then immersed in a bath with the following formulation, and the drawing rate was 50.
% and narrowed down uniformly.

Formulation 1 Teisan Resin A-3611 (polyacrylic resin manufactured by Teikoku Kagaku Co., Ltd.) 40 parts by weight Vinylidene chloride-acrylonitrile copolymer microcapsules (diameter 5 to 8 microns) containing rose oil (fragrance) and isobutane (foaming substance) )
0.8 parts by weight Water 959.2 parts by weight〓〓〓
Next, it was dried and heat treated at 160°C for 1 minute. When artificial rose flowers were made from the resulting fabric (thermoformed at a temperature of 190°C at the time of creation), the scent of roses could be felt even after one month.

Example 2 A polyester nonwoven fabric was subjected to usual scouring, dyeing, and drying, and then immersed in a bath with the following formulation 2 to determine the squeezing rate.
Squeezed evenly at 100%.

Formulation 2 Elastron H-3 (active ingredient 25%) (polyurethane resin manufactured by Daiichi Kogyo Seiyaku Co., Ltd.) 50 parts by weight Vinylidene chloride-acrylonitrile copolymer micro containing the synthetic diasmine fragrance of Formulation 3 below and isobutane (foaming substance) Capsule (approx. 5-8 in diameter)
Micron) 0.6 parts by weight Water 974.4 parts by weight Formula 3 Benzyl acetate 45 parts by weight Benzyl propionate 5 Benzyl butyrate 2 Amyl cinnamic aldehyde 15 Linalool 8 Linalyl acetate 5 Hydroxycintronellal 5 Phenylethyl alcohol 15 Next, it was dried and heat treated at 170°C for 30 seconds. Create artificial flowers using the obtained fabric (when creating
Thermoformed at a temperature of 190°C. ), I could still smell the diasmine scent even after a month.

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Claims (1)

[Claims] 1. An aqueous dispersion consisting of a heat-resistant resin capable of forming a film by thermosetting and a microcapsule-type foaming agent containing a fragrance and a heat-foaming foaming agent inside is applied to a fabric, followed by drying and heat treatment. A fabric for artificial flowers that has a semi-permanent fragrance. 2 The heat-resistant resin is heated to 170% in its formed film state.
The fabric for artificial flowers according to claim 1, which is a heat-resistant resin having durability at temperatures of up to 210°C. 3 Microcapsule-type blowing agents containing fragrance and heat-foaming blowing agents reduce the amount of heat-resistant resin used.
3. The fabric for artificial flowers according to claim 1 or 2, characterized in that the fabric used is 1/100 to 1/10. 4. The artificial flower fabric according to claim 1, 2, or 3, wherein the fabric is made of polyester fiber. 5. An aqueous dispersion consisting of a heat-resistant resin capable of forming a film by thermosetting and a microcapsule-type blowing agent containing a fragrance and a heat-foaming blowing agent inside is applied to the fabric, and heat treatment is performed after drying. A method for producing a fabric for artificial flowers having a semi-permanent fragrance. 6. Production of a fabric for artificial flowers according to claim 5, wherein the heat-resistant resin having the ability to form a film by thermosetting is a resin that has durability against temperatures of 170 to 210°C in the formed film. Method. 7. A microcapsule-type blowing agent containing a fragrance and a heat-foaming blowing agent inside is used, which is 1/100 to 1/10 of the weight of the heat-resistant resin capable of forming a film by thermosetting. A method for manufacturing an artificial flower fabric according to claim 5 or 6. 8. The method for producing a fabric for artificial flowers according to claim 5, 6, or 7, wherein the fabric is a fabric made of polyester fiber.