JP2018104540A - Mosquito repellent polyurethane foam - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a mosquito repellent polyurethane foam that does not require fire or electricity, has no trouble of setting like a mosquito net, and that does not need to directly apply to the skin, and can be applied to items to be worn or to be placed nearby such as bedding (pillow, mattress), seat cushion, seat chair pad, pad for clothing, toy, etc.SOLUTION: Provided is a mosquito repellent polyurethane foam obtained from a composition for mosquito repellent polyurethane foam containing polyol, isocyanate, blowing agent, catalyst and mosquito repellent agent, and in which, as a mosquito repellent agent, a terpene alcohol having mosquito repellency selected from any of geraniol, linalool and p-menthane-3,8-diol is used.SELECTED DRAWING: Figure 1

Description

  The present invention relates to a mosquito repellent polyurethane foam.

  Conventionally, mosquito repellents such as mosquito coils, electric scenters, or mosquito nets have been used. Also used are mosquito repellents that are applied directly to the skin by spraying.

  However, since mosquito coils use fire, there are restrictions on the environment in which they can be used, and electric scenters are limited to places where electricity can be used. On the other hand, many mosquito repellents that are applied directly to the skin use diet, and people with sensitive skin may be injured.

A mite repellent polyurethane foam (Patent Document 1) in which pyrethrins are dispersed has been proposed.
However, the mite-repellent polyurethane foam in which pyrethrins are dispersed was not for mosquito repellent.

Japanese Patent Laid-Open No. 4-96968

  The present invention has been made in view of the above points, and aims to provide a mosquito repellent polyurethane foam that does not require fire and electricity, does not require installation like a mosquito net, and does not need to be directly applied to the skin. And

  The invention of claim 1 is a mosquito repellent polyurethane foam obtained from a composition for a mosquito repellent polyurethane foam comprising a polyol, an isocyanate, a foaming agent, a catalyst and a mosquito repellent, wherein the mosquito repellent is a mosquito repellent. It is characterized by being a terpene alcohol having properties.

  The invention of claim 2 is characterized in that, in claim 1, the terpene alcohol is selected from geraniol, linalool, and p-menthane-3,8-diol.

  According to the present invention, terpene alcohol as a mosquito repellent contained in polyurethane foam provides a mosquito repellent action, does not require fire and electricity, does not require installation like a mosquito net, and directly on the skin. No mosquito repellent effect can be obtained by wearing or placing the mosquito repellent polyurethane foam of the present invention on the side. Furthermore, geraniol used as a repellent has a fragrance similar to rose, and linalool is contained in essential oils of plants, has a fragrance similar to lily of the valley, lavender, bergamot, p-menthane-3, 8-Diol is contained in essential oils of plants, has a fragrance like fennel, has an aroma effect, and is contained in essential oils of plants and is safe for the human body.

It is a table | surface which shows the structure and physical-property measurement result of an Example and a comparative example. The measurement result of the mosquito repellent rate of a test group is shown.

  The mosquito repellent polyurethane foam of the present invention is obtained from a composition for a mosquito repellent polyurethane foam containing a polyol, an isocyanate, a foaming agent, a catalyst, and a mosquito repellent by a reaction between the polyol and the isocyanate.

  As the polyol, a polyol for polyurethane foam is used, and is not particularly limited, and may be any of polyether polyol, polyester polyol, polyether ester polyol, or one or more of them. .

  Examples of polyether polyols include ethylene glycol, diethylene glycol, propylene glycol, dipropylene glycol, butylene glycol, neopentyl glycol, glycerin, pentaerythritol, trimethylolpropane, sorbitol, sucrose, and other polyhydric alcohols such as ethylene oxide (EO). And polyether polyols to which alkylene oxides such as propylene oxide (PO) are added.

Examples of the polyester polyol include polycondensation from aliphatic carboxylic acids such as malonic acid, succinic acid, and adipic acid, and aromatic carboxylic acids such as phthalic acid, and aliphatic glycols such as ethylene glycol, diethylene glycol, and propylene glycol. The polyester polyol obtained in this way can be mentioned.
Further, examples of the polyether ester polyol include those obtained by reacting the polyether polyol with a polybasic acid, or those having both polyether and polyester segments in one molecule.

  As the isocyanate, aliphatic or aromatic polyisocyanates having two or more isocyanate groups, mixtures thereof, and modified polyisocyanates obtained by modifying them can be used. Examples of the aliphatic polyisocyanate include hexamethylene diisocyanate, isophorone diisocyanate, and dicyclohexamethane diisocyanate. Examples of the aromatic polyisocyanate include toluene diisocyanate (TDI), diphenylmethane diisocyanate (MDI), naphthalene diisocyanate, and xylylene. Range isocyanate, polymeric polyisocyanate (crude MDI), etc. can be mentioned. Other prepolymers can also be used.

  The isocyanate index is preferably 70 or more, more preferably 80 to 120. The isocyanate index is a value obtained by multiplying the value obtained by dividing the number of moles of isocyanate groups in the isocyanate by the total number of moles of active hydrogen groups such as hydroxyl groups of polyol by 100, and [NCO equivalent of isocyanate / active hydrogen equivalent × 100]. Calculated.

  As the blowing agent, water, hydrocarbons such as chlorofluorocarbon or pentane can be used alone or in combination. In the case of water, carbon dioxide gas is generated during the reaction between the polyol and the isocyanate, and foaming is performed by the carbon dioxide gas. The amount of water as a blowing agent is preferably 0 to 10 parts by weight with respect to 100 parts by weight of polyol.

  A known urethanization catalyst can be used in combination as the catalyst. For example, amine catalysts such as triethylamine, triethylenediamine, diethanolamine, dimethylaminomorpholine, N-ethylmorpholine, tetramethylguanidine, tin catalysts such as stannous octoate and dibutyltin dilaurate, phenylmercurypropionate or lead octenoate And metal catalysts (also referred to as organometallic catalysts).

As the mosquito repellent, terpene alcohol having mosquito repellent properties is used. As the terpene alcohol having mosquito repellent properties, one or more selected from geraniol, linalool, and p-menthane-3,8-diol are preferable.
Geraniol is contained in essential oils such as palmarosa oil, citronella oil, lavender oil, lemongrass oil, and geranium oil, and is a liquid with a fragrance resembling roses. It is used. Geraniol is not limited to natural products by distillation, but is also produced industrially.
Linalool is contained in essential oils such as lavender oil and bergamot oil, is a liquid with a fragrance similar to lily of the valley, lavender and bergamot, is known for mosquito repellent, and is also used as a fragrance for food and cosmetics Yes. Linalool is not limited to natural products by distillation, but is also produced industrially. Both linalool and geraniol have the chemical formula C ₁₀ H ₁₈ O and are in an isomer relationship with each other.
p-Mentane-3,8-diol is contained in lemon and eucalyptus essential oils, has a mild scent, is known for mosquito repellent properties, and is also used in perfumes.

  The blending amount of the mosquito repellent is preferably 0.5 to 10 parts by weight, particularly 1 to 5 parts by weight based on 100 parts by weight of polyol. If the amount of mosquito repellent is too small, the mosquito repellent effect is reduced, while if the amount of mosquito repellent is too large, good foaming of the polyurethane foam is impaired.

The mosquito repellent polyurethane foam composition appropriately contains other auxiliary agents. For example, a foam stabilizer, a flame retardant, a coloring agent, etc. can be mentioned.
A well-known foam stabilizer can be used for urethane foam. For example, a silicone type foam stabilizer, a fluorine-containing compound type foam stabilizer, and a well-known surfactant can be mentioned. The amount of the foam stabilizer is 0.6 to 3.0 parts by weight with respect to 100 parts by weight of the polyol.
Flame retardants include halogenated polymers such as polyvinyl chloride, chloroprene rubber, chlorinated polyethylene, phosphoric acid esters and halogenated phosphoric acid ester compounds, or organic flame retardants such as melamine resin and urea resin, antimony oxide and aluminum hydroxide. And inorganic flame retardants. The amount of the flame retardant used is 5 to 50 parts by weight with respect to 100 parts by weight of the polyol.
Examples of the colorant include carbon black. The amount of the colorant is determined according to the type of the colorant.

Moreover, a mosquito repellent polyurethane foam is manufactured by making the polyol and isocyanate of the said composition for mosquito repellent polyurethane foam react, and making it foam.
Foaming in the method for producing the mosquito repellent polyurethane foam may be slab foaming or mold foaming. Slab foaming is a method in which a mixed composition for mosquito repellent polyurethane foam (polyurethane foam raw material) is discharged onto a belt conveyor and foamed at room temperature under atmospheric pressure, while mold foaming is a mixed mosquito repellent property. In this method, a polyurethane foam composition is filled in a mold (molding die) and foamed in the mold.

The article in which the mosquito repellent polyurethane foam of the present invention is used is not limited, and is suitable for a thing to be worn or a thing to be put on the side. Examples include bedding (pillows, mattresses), cushions, seat pad, clothing pads, mosquito repellents, toys and the like.
The mosquito repellent polyurethane foam of the present invention has a density corresponding to the applied article. As an example, the density (JIS K 7222) is 16 to 80 kg / cm ³ .

The following raw materials were mixed in the formulation shown in FIG. 1 and reacted and foamed to produce polyurethane foams of the examples and comparative examples.
Polyol: Polyether polyol, number average molecular weight 3000, functional group number 3, hydroxyl value 56.1 mgKOH / g, product number; GP-3050NS, manufactured by Sanyo Chemical Industries, Ltd. Amine catalyst: N, N-dimethylaminohexanol, product number: Kao Riser no. 25, manufactured by Kao Corporation, foam stabilizer: silicone-based foam stabilizer, product number; NIAX silicon L-595, manufactured by Momentive Performance Materials Japan, Inc., mosquito repellent A: geraniol, product number: GERANIOL GB, Takasago International Corporation -Mosquito repellent B: p-menthane-3,8-diol, product number; p-MENTHANE-3, 8-DIOL, manufactured by Takasago International Corporation-Mosquito repellent C: linalool, product number: LINALOOOL, Takasago International Corporation -Additive: Citronellal (terpene aldehyde), product number: CITRONELLAL, manufactured by Takasago International Corporation-Foaming agent: water-Tin catalyst: dibutyltin dilaurate, product number: MRH-110, manufactured by Johoku Chemical Industry-Isocyanate: 2, 4 -Mixture of TDI 80% and 2,6-TDI 20%, product number; T-80, Japan Made of polyurethane

With respect to the obtained Examples 1 to 3 and Comparative Examples 1 and 2, the basic physical properties of the polyurethane foam and the presence or absence of discoloration were measured. Density is JIS K7222, Hardness is JIS K6200-2, Tensile strength is JIS K6400-5, Elongation is JIS K6400-5, Tear strength is JIS K6400-5, Breathability is JIS K6400-7 (Method A), Compression residual The strain was measured based on JIS K6400-4.
About discoloration, it evaluated visually as follows. The polyurethane foam created by the formulation of each example and each comparative example was cut horizontally the next day to make an evaluation sample, and the color change was based on the polyurethane foam created by the formulation of comparative example 1 without mosquito repellent. The presence or absence was visually evaluated.

Example 1 is an example containing repellent A (geraniol), Example 2 is an example containing mosquito repellent B (p-menthane-3,8-diol), and Example 3 is a mosquito repellent C ( (Including linalool). In Examples 1 to 3, the density is 25.5 to 25.8 kg / m ³ , the hardness is 120 to 130 N, the tensile strength is 100 to 114 kPa, the elongation is 191 to 204%, and the tear strength is 5.99 to 7. 14 N / cm, air permeability was 65 to 100 L / min, compression residual strain was 1.7 to 2.5%, and there was no discoloration.

On the other hand, the comparative example 1 is an example which does not contain a mosquito repellent, and the comparative example 2 is an example which mix | blended the additive (citronellal) instead of the mosquito repellent. Comparative Example 1 has a density of 25.4 kg / m ³ , a hardness of 144 N, a tensile strength of 105 kPa, an elongation of 155%, a tear strength of 5.43 N / cm, a breathability of 58 L / min, and a compression residual strain of 2 It was 1%. Regarding discoloration, there was no discoloration immediately after the polyurethane foam production and the next day. Comparative Example 2 has a density of 24.9 kg / m ³ , a hardness of 86 N, a tensile strength of 103 kPa, an elongation of 193%, a tear strength of 6.07 N / cm, a breathability of 130 L / min, and a compressive residual strain. 2.6% and discoloration. Discolored polyurethane foam is not suitable for items that dislike discoloration, such as bedding and clothing.

Moreover, about Example 4 containing 3 weight part of mosquito repellent B (p-menthane-3,8-diol), and Comparative Example 3 which does not contain a mosquito repellent, a mosquito repellent test was carried out at Food and Environmental Health Laboratories, Inc. The mosquito repellent rate was calculated. Comparative Example 3 has the same composition as Comparative Example 1, but was prepared separately as a sample for mosquito repellent test.
The sample for the mosquito repellent test was a polyurethane foam of Example 4 and Comparative Example 3, and the thickness of 5 mm × 250 mm × 250 mm was joined by heat sealing to give a thickness of 5 mm × 250 mm × 750 mm. The sample for repellent test of Example 4 is a test group, while the sample for repellent test of Comparative Example 3 is a control group (blank).

  Two cage net cages (30 cm × 30 cm × 30 cm) were prepared in a test room at room temperature 25 ± 2 ° C. and humidity 60-70% Rh, and 50 human striped mosquitoes were released in the cage. In order to prevent the bite of the finger part from being wrapped around the subject's arm in a cylindrical shape, put on a glove, insert the arm around which the sample for repellent test is wound into the cage, and leave it in the cage for 10 minutes. In the meantime, the number of mosquitoes stopped on the arm repellent sample was counted. This was repeated twice.

The test results are as shown in the table of FIG. 2, and the average number of shots in the test group (Example 4) was 4.0, while the average number of shots in the control group (Comparative Example 3) was 11. It was 5.
Moreover, the mosquito repellent rate of the test group (Example 4) calculated by the calculation formula shown in the lower part of FIG. 2 was 65.2%, and the mosquito repellent effect was recognized for the test group (Example 4).

In this way, the mosquito repellent polyurethane foam of the present invention does not require fire and electricity, does not require installation like a mosquito net, and does not need to be applied directly to the skin, it is simply worn or placed next to it. Thus, a good mosquito repellent effect can be obtained.
The mosquito repellent polyurethane foam of the present invention can be applied to bedding (pillows, mattresses), cushions, chair pads, clothing pads, mosquito repellents, toys and the like.

Claims (2)

A mosquito repellent polyurethane foam obtained from a composition for mosquito repellent polyurethane foam comprising a polyol, an isocyanate, a blowing agent, a catalyst and a mosquito repellent,
The mosquito repellent polyurethane foam, wherein the mosquito repellent is terpene alcohol having mosquito repellent properties.   2. The mosquito repellent polyurethane foam according to claim 1, wherein the terpene alcohol is selected from geraniol, linalool, and p-menthane-3,8-diol.

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