JP3865729B2 - Biodegradable construction sheet with antibacterial and antifungal agents - Google Patents

Description

  The present invention has excellent mechanical properties that can be used for spreading, covering and protecting the environment, preventing danger, and preventing fire at construction sites. It is flame retardant, has antibacterial and antifungal agents, and is biodegradable. The present invention relates to a biodegradable building work sheet and a manufacturing method thereof.

Conventional construction sheets and mesh sheets are made by coating a fiber base cloth woven and knitted from synthetic fibers such as polyester fibers and polyamide fibers, which are plastics from petroleum, with a vinyl chloride resin. If the sheet or mesh sheet coated with vinyl chloride resin is subjected to a combustion process at the time of disposal, the halogen-based substance is thermally decomposed to generate dioxins or the like, or hydrochloric acid is generated to damage the incinerator. In addition, when buried after use, halogenated substances do not decompose and remain in the soil to contaminate the soil. Furthermore, there is a problem that the plasticizer, which is an environmental hormone contained in the resin, bleeds and contaminates the soil.
Japanese Patent Publication No. 52-41786

  The present invention has been made in view of such a current situation, and responds to the global need for purification of the global environment. It is biodegraded when buried in soil or compost after use, and becomes a substance existing in nature. The present invention provides a sheet for building construction that has special performance to convert, has excellent flame retardancy, and has antibacterial and antifungal properties.

The present invention
“1. 100 parts by weight of biodegradable resin base fabric is treated with an aqueous solution or emulsion containing at least one selected from an aliphatic cyclic phosphonate ester and a condensed phosphate ester compound, and the solution At least 1 selected from a coated ammonium phosphate and a condensed phosphate ester compound with respect to 100 parts by weight of a biodegradable resin flame retardant base fabric impregnated and adhered with a solid content of 1 to 20 parts by weight 20 to 100 parts by weight of the type, 0.5 to 3 parts by weight of the antibacterial / antifungal agent, and 10 to 70 parts by weight of the solid content of the biodegradable resin emulsion added with 0.5 to 2 parts by weight of the weathering agent A biodegradable construction sheet having an antibacterial / antifungal agent characterized in that the surface is coated by dipping and then heated and dried.
2. The biodegradable resin base fabric resin is a polylactic acid resin, the biodegradable construction sheet having the antibacterial / antifungal agent described in 1.
3. The biodegradable resin base fabric resin is a modified polyethylene terephthalate-based resin, the biodegradable construction sheet having the antibacterial / antifungal agent described in 1.
4). The biodegradable construction sheet having the antibacterial / antifungal agent according to any one of items 1 to 3, wherein the fiber strength of the biodegradable resin base fabric is 2.6 cN / dtex or more.
5). The biodegradable resin emulsion is a biodegradable construction work sheet having the antibacterial / antifungal agent described in any one of items 1 to 4, wherein the biodegradable resin emulsion is a polylactic acid resin.
6). The biodegradable resin emulsion is a polybutylene succinate resin or a polybutylene succinate adipate resin, and the biodegradable construction sheet having the antibacterial / antifungal agent described in any one of 1 to 4 .
7). The biodegradable construction sheet having a fungicide / antifungal agent according to any one of claims 1 to 6, wherein the condensed phosphate ester compound is resorcinol diphenyl phosphate as a main compound.
8). 8. The coated ammonium polyphosphate is a surface-coated coated ammonium polyphosphate having an average particle size of 30 μm or less, for biodegradable construction work having the antibacterial / antifungal agent described in any one of 1 to 7 Sheet.
9. The biodegradable construction sheet having the antibacterial / antifungal agent described in any one of 1 to 8, wherein the antibacterial / antifungal agent is a polycyclic nitrogen-containing compound.
10. The biodegradable having the antibacterial / antifungal agent described in any one of 1 to 9, wherein the weathering agent includes at least one selected from an ultraviolet absorber, a light stabilizer, and an antioxidant. Sheet for construction work.
11. The sheet has flame retardancy of A-1 method category 3, A-2 method category 3, and D method category 2 of "JIS L 1091". Biodegradable construction sheet with antifungal agent.
12 12. A biodegradable construction work sheet comprising the antibacterial / antifungal agent according to any one of 1 to 11, wherein the sheet is a mesh sheet.
13. The biodegradable base fabric is a biodegradable woven fabric, a biodegradable knitted fabric, or a biodegradable nonwoven fabric. The biodegradable construction work having the antibacterial / antifungal agent described in any one of items 1 to 12. Sheet. 14 Aliphatic cyclic phosphonic acid ester relative to the biodegradable resin base fabric 100 parts by weight, was treated with an aqueous solution or and emulsions containing at least one compound selected from condensed phosphoric acid ester compounds, the solid in the liquid fraction 1 to 20 parts by weight of impregnated and heat-treated biodegradable resin flame retardant base fabric 100 parts by weight At least one kind selected from coated ammonium phosphate and condensed phosphate ester compounds 20 to 20 parts by weight 100 parts by weight, antibacterial / antifungal agent 0.3 to 3 parts by weight, weathering agent 0.5 to 2 parts by weight of the biodegradable resin emulsion added so that the solid content is 10 to 70 parts by weight. A biodegradable construction sheet having antibacterial and antifungal agents, characterized by covering the surface and then drying by heating. "
About.

  The present invention is biodegraded by being buried in soil or compost after use, and is converted into a substance existing in the natural world, and does not pollute the environment and exhibits an excellent flame retardancy. Since it has antibacterial and antifungal agents, wrinkles do not occur during storage and use, so discoloration and alteration can be prevented.

Hereinafter, the present invention will be described in detail with reference to embodiments thereof.
The biodegradable resin used as the biodegradable resin base fabric of the present invention is not particularly limited, but an aliphatic polyester resin is preferable. Specifically, hydroxyalkyl carboxylic acids such as lactic acid, glycolic acid, and hydroxybutyl carboxylic acid lactate, aliphatic lactones such as glycolide, lactide, butyrolactone, and caprolactone, aliphatic diols such as ethylene glycol and butanediol, succinic acid, and adipic acid And a resin containing a polymerization raw material such as aliphatic dicarboxylic acid. Among these, a polylactic acid-based resin in which polylactic acids having optical isomers are combined is particularly preferable from the viewpoint of heat resistance, mechanical properties, and the like. Examples of the polylactic acid resin include Nature works (Cargill Dow Polymers LLC) Terramac (registered trademark of Unitika Ltd.) and Lacia (registered trademark of Mitsui Chemicals). Furthermore, a high melting point, highly crystallized modified polyethylene terephthalate based on terephthalic acid, ethylene glycol, or diethylene glycol, and a hydrolyzable biodegradable resin having a Tg of 75 ° C. or lower is preferred. An example is Biomax (registered trademark of DuPont).
Although it does not specifically limit as a biodegradable resin emulsion of this invention, An aliphatic polyester resin is preferable. Among them, polylactic acid resin is particularly preferable because of its good water resistance. Examples include Randy PL-1000 (Miyoshi Oil & Fat Co., Ltd. registered trademark: solid content 45%) and Prasema L110 (Daiichi Kogyo Seiyaku Co., Ltd. registered trademark: solid content 50%). Polybutylene succinate (PBS) resin and polybutylene succinate adipate (PBSA) resin having a glass transition point of −30 ° C. or less and flexible properties are preferred. Examples include Bionore EM301, Bionore EM901, Bionore EM530 (Showa Polymer Co., Ltd. registered trademark: solid content 50%). In view of water resistance and flexibility of the product, it is more preferable to use a mixture of polylactic acid resin and PBS or PBSA. Furthermore, when a biodegradable resin is coated on paper, film, or woven or knitted fabric, it is preferable to use a biodegradable resin solution dissolved in a solvent because the adhesive strength with the substrate is improved.
An example is Randy EA-100 (registered trademark of Miyoshi Oil & Fat Co., Ltd .: solid content 30%).

Further, a curing agent is added to improve the adhesion between the base fabric and the solid content obtained by heating and drying the biodegradable resin emulsion.
As an example, KBX-0501 (registered trademark of Showa Polymer Co., Ltd .: solid content 100%) can be mentioned. When KBX-0501 is used, 1.0 to 3.0 parts by weight of the solid content is blended with respect to 100 parts by weight of the solid content of the biodegradable resin emulsion as an aqueous solution. If the amount is 1.0 part by weight or less, the effect of improving adhesion is small. Even if it is 3.0 parts by weight or more, the effect of improving the adhesion does not increase any more.

The flame retardant used in the present invention is an aliphatic cyclic phosphonate. An example of the aliphatic cyclic phosphonic acid ester is K-19A (registered trademark of Meisei Chemical Industry Co., Ltd.).
The condensed phosphate ester compound used in the present invention contains resorcinol diphenyl phosphate as a main component and contains 40 to 60% by weight, triphenyl phosphate 1 to 5% by weight, and butyl cellosolve 5 to 10% by weight. Other containing emulsifying agent.
As an example, Phoscon FR-SEK (registered trademark of Meisei Chemical Industry Co., Ltd.) can be mentioned. These chemical substances may be added not only in one kind but also in plural kinds. The solvent for the aliphatic cyclic phosphonate K-19A is water. K-19A may be used as an aqueous solution or an aqueous solution obtained by adding a water-soluble paste such as sodium alginate or carboxymethyl cellulose to the aqueous solution.
Since the resorcinol diphenyl phosphate, which is the main component, Phoscon FR-SEK is an emulsified composition emulsified and dispersed in water, the solvent is water. Therefore, FR-SEK is used as a water emulsion dispersion. When K-19A and FR-SEK are mixed and used, water is used as a solvent.
The weight of impregnated flame retardant solids in which at least one aliphatic cyclic phosphonate ester or condensed phosphate ester compound is added as an aqueous solution or emulsion to 100 parts by weight of the biodegradable resin base fabric is 1 to 20 weights. It is necessary to exist. Preferably it is 1-15 weight part, More preferably, it is 3-10 weight part. If it is less than 1 part by weight, the flame retardant effect is small, and if it is 20 parts by weight or more, the effect of promoting flame retardancy is reduced, and the adhesion to the dispersion resin emulsion solids is lowered, resulting in the disadvantage of poor wear resistance. It is not preferable.

The coated ammonium polyphosphate used in the present invention is ammonium polyphosphate whose surface is coated with an organic or inorganic material. Those coated on the surface are preferred because they have good water resistance. Examples of the coated ammonium polyphosphate include TERRAJU C60 (registered trademark of Chisso Corporation, average particle diameter 7.5 μm), TERRAJU C70 (registered trademark of Chisso Corporation, average particle diameter 20 μm), TERRAJU C80 (registered trademark of Chisso Corporation, average) Particle size 20 μm),
Hostafram AP462 (registered trademark of Clariant Japan Co., Ltd., average particle size 20 μm) can be mentioned.
When the coated ammonium polyphosphate is blended and mixed into the biodegradable resin emulsion, a small average particle size is preferable for uniform dispersion. The average particle size is 5 to 30 μm, preferably 5 to 20 μm, more preferably 5 to 10 μm.

In the present invention, 100 parts by weight of the biodegradable resin flame retardant base fabric is at least one selected from a coated ammonium phosphate and a condensed phosphate ester compound as a flame retardant 20 to 1
It is necessary that the biodegradable resin emulsion added with 00 parts by weight, antibacterial / antifungal agent 0.5-3 parts by weight and weathering agent 0.5-2 parts by weight has a solid content of 10-70 parts by weight. When the amount of the flame retardant added is 20 parts by weight or less, the flame retardancy deteriorates, which is not preferable. Addition of more than 100 parts by weight will not improve the flame retardant effect, resulting in poor adhesion between the biodegradable resin flame retardant base fabric and the biodegradable resin, resulting in poor wear resistance and problems such as resin peeling. Is not preferable.
The combined use of coated ammonium polyphosphate and condensed ammonium phosphate is preferable because the flameproofing effect is much greater than the additive effect obtained by adding the effects of using them alone.
It is necessary that the biodegradable resin emulsion solid content is 10 to 70 parts by weight with respect to 100 parts by weight of the biodegradable resin flame retardant base fabric. When the amount is 10 parts by weight or less, the resin fixing of the biodegradable resin flame-retardant base fabric fiber becomes loose, and it is easy to cause misalignment and bends. Moreover, since there are few coating resin on the surface, the unevenness | corrugation of a base fabric becomes large and printability worsens and is unpreferable. If it is 70 parts by weight or more, the texture of the product becomes hard, and there is a problem that folding of the construction sheet and the problem of poor workability at the construction site occur.
In the present invention, a biodegradable resin to which an antibacterial / antifungal agent is added has water absorption and hygroscopicity, and has high humidity. There is a risk of drought on the product during the rainy season. To prevent this, add antibacterial and antifungal agents.

Antibacterial / antifungal agents include organic nitrogen compounds, nitrogen atoms, sulfur compounds, and silver inorganic antibacterial agents.
Examples of organic nitrogen compounds include Marcaside RT-D (Osaka Kasei Co., Ltd .: Polycyclic nitrogen-containing compound 20% powder), Marcaside RT-DP (Osaka Kasei Co., Ltd .: Polycyclic nitrogen-containing compound 20%). water suspension Nigozai), Marca side M101 (Osaka Chemical Co., Ltd .: 100% Chia vendor sole), Marca side P (Osaka Kasei Co., Ltd.: like pale yellow-emulsifying liquid). Markaside YP-DP (manufactured by Osaka Kasei Co., Ltd .: cyclic nitrogen-containing compound) can be mentioned. The addition amount of these antibacterial / antifungal agents is 0.3 to 3 parts by weight with respect to 100 parts by weight of the biodegradable resin emulsion and the solid content. Preferably it is 0.5-2 weight part. More preferably, it is 0.8-1.5 weight part. If the amount is 0.3 parts by weight or less, the effect of the antibacterial / antifungal agent is small, and if it is 3 parts by weight or more, the weather resistance (yellowing color) of the product is deteriorated. Addition of antibacterial / antifungal agents deteriorates the weather resistance (yellowing) of the product, but polycyclic nitrogen-containing compounds are preferred because they have little influence on weather resistance.

The weathering agent used in the present invention contains at least one selected from ultraviolet absorbers, light stabilizers and antioxidants. 0.5 to 2 parts by weight is added to 100 parts by weight of the biodegradable resin emulsion.
a. Examples of the ultraviolet absorber benzotriazole series include chinupin 327 (registered trademark of Ciba-Gaigi Co., Ltd.), Biosoap 510 (registered trademark of Kyodo Yakuhin), and Adeka Tap 1413 (registered trademark of Asahi Denka Co., Ltd.) as examples of benzophenone series.
b. Examples of light-resistant stabilizer hindered amines are ADK STAP LA77 (registered trademark of Asahi Denka Co., Ltd.) and ADK STAP LA68LD (registered trademark of Asahi Denka Co., Ltd.). Examples of antioxidants are Irganox 1010 (registered trademark of Ciba-Gigi Co., Ltd.). Can be mentioned.
When the addition amount is 0.5 parts by weight or less, the effect of preventing yellow discoloration is small. Even when 2 parts by weight or more is added, the effect of preventing yellowing is not improved.

After impregnating the biodegradable resin flame retardant base fabric with a biodegradable resin emulsion to which a flame retardant is added and coating the surface, the drying temperature in the heating furnace is 70 to 150 ° C., and the inlet of the heating furnace is low. And make the exit high. When the inlet temperature is 110 ° C. or higher, foaming may occur in the resin, which is not preferable, and 70 to 110 ° C. is preferable. On the other hand, when the outlet temperature is 150 ° C. or higher, the sheet becomes hard, which is not preferable. The heating time may be several minutes.
Addition of a biodegradable plasticizer to the biodegradable resin and biodegradable emulsion is preferable because the texture of the product becomes flexible. Examples include Riquemar L009, Rikemar L019, Riquemar L710 (registered trademark of Riken Vitamin Co., Ltd.), Prasema S-1547 (registered trademark of Daiichi Kogyo Seiyaku Co., Ltd.), Lactosizer GP-2001, Lactosizer GP-4001 (Arakawa Chemical Industries) Company registered trademark).

It is preferable that the strength of the fiber used for the biodegradable resin base fabric exceeds 2.6 cN / dtex. If it is 2.6 cN / dtex or less, mechanical properties such as tensile strength and tear strength required for the construction work sheet are lowered, and the function as the sheet cannot be exhibited. Preferably it is 3.0 cN / dtex or more.
The woven structure of the base fabric of the construction work sheet of the present invention may be a flat, twill, and satin Mihara structure and those modified, mixed, and other special ones, but is particularly lightweight, It is difficult to cause blinding, and preferred are a plain structure, a dummy structure, a kneaded woven structure, and the like. The knitting structure is preferably a Russell knitting. Nonwoven fabrics are also used as the base fabric. As the nonwoven fabric, any one using an adhesive, one fused, one entangled, and the like can be used.

Since the density of the woven fabric woven with multifilament fibers as a sheet-like base fabric in the present invention is open when using a mesh-like woven or knitted fabric of 10 to 130 warps / 10 cm, 10 to 130 wefts / 10 cm, When used in construction sites such as high-rise buildings where air is passed well, the burden on the support due to wind pressure can be reduced, and it has the advantage of being light and easy to handle. Further, the density of the woven fabric made of multifilament fibers as the sheet-like base fabric is such that when the sheet-like base fabric woven with plain warp of 35-60 yarns / inch and weft yarns of 25-60 yarns / inch is used, there is no mesh opening. Although there is no air pressure, it is windproof but dustproof and safe, and the printing ink is uniform and clear. In addition, the sheet is thin and strong. The density of the fabric woven with spun yarn as the sheet-like base fabric is high when the spun yarn fabric of 43 to 55 warps / inch and 35 to 60 wefts / inch is used. endured, hardly resin layer peeling can cause, the thickness is thick massive product is easily produced benefits.
In the present invention, types and amounts of biodegradable substances and inorganic substances are selected, pigments, dyes, ultraviolet absorbers, light stabilizers, antioxidants, plasticizers, stabilizers, diluents, thickeners, foaming agents, dispersants. Antifungal agents, algaeproofing agents, aluminum hydroxide, magnesium hydroxide, titanium oxide and the like can be used.
Since the biodegradable construction sheet having the antibacterial / antifungal agent of the present invention is composed of a biodegradable resin and a biodegradable chemical substance, when buried in soil or compost when discarded after use, It is decomposed by the synergistic action of bacteria, moisture and temperature, and can be effectively used as a fertilizer for crops, horticulture and the like.

Comparative example 1 It is an example which does not process with a pre-processing flame retardant liquid.
Comparative Example 2 This is an example in which the amount of flame retardant added relative to the solid content of the biodegradable resin emulsion is small.
Comparative Example 3 This is an example in which the amount of the flame retardant added is large relative to the solid content of the biodegradable resin emulsion.
Comparative Example 4 This is an example in which the coating amount of the biodegradable resin emulsion solid content is small with respect to the biodegradable resin flame-retardant base fabric.
Comparative Example 5 This is an example in which the coating amount of the biodegradable resin emulsion solids is large relative to the biodegradable resin flame retardant base fabric.
Comparative Example 6 This is an example in which no antibacterial / antifungal agent is added.
Comparative Example 7 In this example, no weathering agent was added.

Next, an example is given and it demonstrates concretely.
Example 1
(A) Add 7 parts by weight of condensed phosphate ester compound Phoscon FR-SEK (registered trademark of Meisei Chemical Co., Ltd.) and 93 parts by weight of water to a planetary mixer (capacity 50 liters) and stir for 15 minutes to make pretreatment difficult A fuel solution was prepared.
(B) Planetary mixer (capacity 50 liters), polylactic acid resin emulsion Prasema L110 (Daiichi Kogyo Seiyaku Co., Ltd .: solid content 50%) 80 parts by weight, polybutylene succinate resin emulsion Bionore EM301 (Showa Polymer Co., Ltd.) Company registered trademark: Solid content 50%) 120 parts by weight, coated ammonium polyphosphate Hostafram AP462 (registered trademark of Clariant Japan Co., Ltd., average particle size 20 μm) 80 parts by weight, organic chisso compound as antibacterial / antifungal agent Marcaside RT-D (Osaka Kasei Co., Ltd. registered trademark) 1.0 part by weight. Weathering agent Adeka Tap LA-77 (Asahi Denka Co., Ltd. registered trademark) 0.6 parts by weight, Tinupin 327 (Ciba-Gigi Corporation registered trademark) 0.4 parts by weight, curing agent KBX-0501 (Showa Polymer Co., Ltd. registered trademark: solid) 6 parts by weight and 100 parts by weight of water were added and stirred for 30 minutes to prepare a biodegradable resin emulsion.
The sheet-like woven fabric made of biodegradable resin has woven fabric density of warp yarns of 36/10/10 cm and weft yarn of 36/10/10 cm, which are woven from 1000 polylactic acid fiber deniers. The fabric is pinched with a pinch roll through a guide roll, passed through a dip tank filled with the pretreated flame retardant liquid prepared in (A), impregnated and adhered, then squeezed with a mang roll, and a heating furnace temperature of 80 ° C./100° C./120 After passing through a heating furnace having a temperature gradient of ° C and 130 ° C for 2 minutes and heat drying, the original fabric was wound around a winder. The weight of the biodegradable resin flame retardant fabric was 255 g / m ² . The biodegradable resin flame-retarded base fabric is pinched with a pinch roll through a guide roll, and further passed through a dip tank filled with the biodegradable resin emulsion prepared in (B) through the guide roll and adhered to the squeeze roll. After squeezing, the air blown to remove the flame retardant resin clogged with the coated base fabric, and then passed through a heating furnace with a temperature gradient of 80 ° C / 100 ° C / 120 ° C / 140 ° C for 2 minutes to heat The gel sheet was dried, and the mesh sheet original fabric having a weight of 320 g / m ^{2 made} of a biodegradable resin flame retardant base fabric was wound with a winder. The composition of the used sheet-like woven or knitted fabric, flame retardant, biodegradable resin emulsion, antibacterial / antifungal agent, and weathering agent is shown in Table 1, and the results of measuring the performance of the treated mesh sheet are shown in Table 3.

Example 2
In Example 1, the pretreatment flame retardant liquid of (A) is the same as in Example, and the same biodegradable resin sheet-like base fabric as in Example 1 is impregnated and adhered as in Example 1. And a biodegradable resin flame-retardant base fabric having a weight of 255 g / m ² was wound around a winder. In Example 1 (B), polylactic acid resin emulsion Prasema L110 (Daiichi Kogyo Seiyaku Co., Ltd., registered trademark: solid content 50%) 120 parts by weight, polybutylene succinate resin emulsion Bionore EM301 (Showa Polymer Co., Ltd. registered trademark) Solid content 50%) 80 parts by weight, organic nitrogen compound as an antibacterial / antifungal agent Marcide RT-D (registered trademark of Osaka Kasei Co., Ltd.) 2.0 parts by weight. 70 parts by weight of water was added and the biodegradable resin emulsion (B) was prepared in the same manner as in Example 1.
The (B) biodegradable resin emulsion was used to treat the biodegradable resin flame-retardant fabric in the same manner as in Example 1 to prepare a mesh sheet raw material having a weight of 360 g / m ² comprising a biodegradable resin flame-retardant coating. The anti-winder was wound up with a winder. The composition of the used sheet-like woven or knitted fabric, flame retardant, biodegradable resin emulsion, antibacterial / antifungal agent, and weathering agent is shown in Table 1, and the results of measuring the performance of the treated mesh sheet are shown in Table 3.

Example 3
In Example 1, the pretreatment flame retardant (A) is composed of 1 part by weight of a condensed phosphate ester compound Phoscon FR-SEK (registered trademark of Meisei Chemical Industry Co., Ltd.), an aliphatic cyclic phosphonate ester K-19A (Meisei). Chemical Industry Co., Ltd. (registered trademark) 5 parts by weight and 94 parts by weight of water were added, and a biodegradable resin flame retardant was prepared in the same manner as in Example 1.
In Example 1, instead of using coated ammonium polyphosphate Hostafram AP462 (Clariant Japan, registered trademark, average particle size 20 μm) in (B), coated ammonium polyphosphate TERRAJU C60 (registered trademark of Chisso: average particle size 7) 0.5 μm) 90 parts by weight and 120 parts by weight of water were added, and a biodegradable flame retardant solution was prepared in the same manner as in Example 1.
(A) A biodegradable resin flame retardant having a weight of 253 g / m ² by subjecting a biodegradable resin sheet-like woven fabric similar to that in Example 1 to the same impregnation and adhesion treatment as in Example 1 using a biodegradable flame retardant solution. The woven fabric was wound up with a winder.
(B) The biodegradable resin fire-retardant woven fabric was treated in the same manner as in Example 1 using a biodegradable resin emulsion, and the mesh sheet raw fabric having a weight of 288 g / m ^{2 made} of the biodegradable resin fire-retardant fabric. Was wound up with a winder. The composition of the used sheet-like woven or knitted fabric, flame retardant, biodegradable resin emulsion, antibacterial / antifungal agent, and weathering agent is shown in Table 1, and the results of measuring the performance of the treated mesh sheet are shown in Table 3.

Example 4
In Example 1, the pretreatment flame retardant (A) is composed of 2 parts by weight of a condensed phosphate ester compound Phoscon FR-SEK (registered trademark of Meisei Chemical Industry Co., Ltd.), an aliphatic cyclic phosphonate ester K-19A (Meisei). Chemical Industry Co., Ltd. (registered trademark) 5 parts by weight and 93 parts by weight of water were added, and a biodegradable resin flame retardant was prepared in the same manner as in Example 1.
In Example 1, 40 parts by weight of coated ammonium polyphosphate Hostafram AP462 (registered trademark of Clariant Japan Co., Ltd., average particle size 20 μm) was used in (B). Otherwise, the biodegradable resin emulsion (B) was prepared in the same manner as in Example 1.
Using the biodegradable flame retardant solution of (A), biodegradable resin having a weight of 255 g / m ² by subjecting the same biodegradable resin jelly and woven fabric as in Example 1 to the same impregnation treatment as in Example 1. The flame retardant fabric was wound up with a winder.
Using the biodegradable resin emulsion of (B), the biodegradable resin flame-retardant fabric was treated in the same manner as in Example 1 to produce a mesh sheet raw material having a weight of 347 g / m ^{2 made} of the biodegradable resin flame-retardant fabric. The anti-winder was wound up with a winder. The composition of the used sheet-like woven or knitted fabric, flame retardant, biodegradable resin emulsion, antibacterial / antifungal agent, and weathering agent is shown in Table 1, and the results of measuring the performance of the treated mesh sheet are shown in Table 3.

Example 5
In Example 1, the pretreatment flame retardant (A) was prepared by adding 15 parts by weight of an aliphatic cyclic phosphonate K-19A (registered trademark of Meisei Chemical Co., Ltd.) and 85 parts by weight of water. Similarly, a biodegradable resin flame retardant was prepared.
In Example 1, (B) coated ammonium polyphosphate Hostafram AP462 (registered trademark of Clariant Japan Co., Ltd., average particle size 20 μm) 15 parts by weight, condensed phosphate ester compound Phoscon FR-SEK (registered trademark of Meisei Chemical Industry Co., Ltd.) 15 parts by weight were used. Otherwise, the biodegradable resin emulsion (B) was prepared in the same manner as in Example 1.
Using the biodegradable flame retardant solution of (A), the biodegradable resin sheet-like woven fabric similar to that in Example 1 was subjected to the same impregnation and adhesion treatment as in Example 1, and the biodegradable resin having a weight of 285 g / m ^2. The flame retardant fabric was wound up with a winder.
The biodegradable resin emulsion of (B) was treated in the same manner as in Example 1 to treat the biodegradable resin flame retardant fabric, and the raw mesh sheet having a weight of 335 g / m ² composed of the biodegradable resin flame retardant fabric. The anti-winder was wound up with a winder. The composition of the used sheet-like woven or knitted fabric, flame retardant, biodegradable resin emulsion, antibacterial / antifungal agent, and weathering agent is shown in Table 1, and the results of measuring the performance of the treated mesh sheet are shown in Table 3.

Example 6
In Example 1, the same pretreatment flame retardant (A) as in Example 1 was used.
In Example 1, the biodegradable resin-made sheet-like woven fabric used polylactic acid fibers of 500 denier, plain weave density of 112 warps / 10 cm and wefts of 112/10 cm, and a weight of 130 g / m ² .
The biodegradable resin sheet-like woven fabric was impregnated and adhered using the flame retardant liquid (A) in the same manner as in Example 1, and a biodegradable resin fire-retardant woven fabric having a weight of 135 g / m ² was obtained with a winder. Winded up.
In Example 1, (B), polybutylene succinate resin emulsion Bionore EM301 (registered trademark of Showa Polymer Co., Ltd .: solid content 50%) was not used, and polylactic acid resin emulsion Prasema L110 (registered trademark of Daiichi Kogyo Seiyaku Co., Ltd.) : 50% solid content) 200 parts by weight was used, and the biodegradable resin emulsion (B) was prepared in the same manner as in Example 1 .
Weight 1 70 g / m ² made of biodegradable resin emulsion processes biodegradable resin flame retardant fabric in the same manner as in Example 1 using in biodegradable resin flame retardant fabric mesh sheet raw I wound it up with a winder. The composition of the used sheet-like woven or knitted fabric, flame retardant, biodegradable resin emulsion, antibacterial / antifungal agent and weathering agent is shown in Table 2, and the results of measuring the performance of the treated mesh sheet are shown in Table 4.

Example 7
In Example 1, the pre-treatment flame retardant (A) was prepared using an aliphatic cyclic phosphonic acid ester K-19A without using the condensed phosphate ester compound Phoscon FR-SEK (registered trademark of Meisei Chemical Industry Co., Ltd.). Meisei Chemical Industry Co., Ltd. (registered trademark) 10 parts by weight and 90 parts by weight of water were added, and a biodegradable resin flame retardant was prepared in the same manner as in Example 1.
In Example 1, the biodegradable resin sheet-like woven or knitted fabric used polylactic acid fibers of 500 denier, plain weave density of 112 warps / 10 cm and weft 112/10 cm, and a weight of 130 g / m ² . The biodegradable resin sheet-like woven fabric was impregnated and adhered using the flame retardant liquid (A) in the same manner as in Example 1, and a biodegradable resin fire-retardant woven fabric having a weight of 140 g / m ² was obtained with a winder. Winded up.
In Example 1, the biodegradable resin emulsion (B) used was the same as that in Example 1, and the biodegradable resin was treated with a facial fabric in the same manner as in Example 1 to treat the biodegradable resin with flame retardant coating. An original mesh sheet having a weight of 180 g / m ² was wound with a winder. The composition of the used sheet-like woven or knitted fabric, flame retardant, biodegradable resin emulsion, antibacterial / antifungal agent and weathering agent is shown in Table 2, and the results of measuring the performance of the treated mesh sheet are shown in Table 4.

Example 8
In Example 1, the same pretreatment flame retardant solution as in (A) was used.
In Example 1, the biodegradable resin fabric is polylactic acid fiber, warp 500 denier / 24 filament, weft 500 denier / 24 filament, fabric density, warp 54 / inch, weft 54 / inch, weight 258 g / m ^2. It was used. Using (A) used in Example 1, the biodegradable resin fabric was impregnated and adhered in the same manner as in Example 1, and the biodegradable resin flame-retardant fabric having a weight of 273 g / m ² was wound around a winder. It was.
In Example 1, instead of using coated ammonium polyphosphate Hostafram AP462 (Clariant Japan, registered trademark, average particle size 20 μm) in (B), coated ammonium polyphosphate TERRAJU C60 (registered trademark of Chisso: average particle size 7) 0.5 μm) 20 parts by weight, 20 parts by weight of condensed phosphate ester compound Phoscon FR-SEK (registered trademark of Meisei Chemical Co., Ltd.) and 60 parts by weight of water were added. Otherwise, the biodegradable resin emulsion (B) was prepared in the same manner as in Example 1.
The biodegradable resin emulsion of (B) was used to treat the biodegradable resin flame-retardant fabric in the same manner as in Example 1 to obtain a mesh sheet having a weight of 395 g / m ^{2 and} comprising the biodegradable resin flame-retardant fabric. The material was wound up with a winder. The composition of the used sheet-like woven or knitted fabric, flame retardant, biodegradable resin emulsion, antibacterial / antifungal agent and weathering agent is shown in Table 2, and the results of measuring the performance of the treated mesh sheet are shown in Table 4.

Example 9
In Example 1, the pretreatment flame retardant (A) is composed of 3 parts by weight of a condensed phosphate ester compound Phoscon FR-SEK (registered trademark of Meisei Chemical Industry Co., Ltd.), an aliphatic cyclic phosphonate ester K-19A (Meisei). 4 parts by weight of Chemical Industry Co., Ltd. and 93 parts by weight of water were added, and a biodegradable resin flame retardant was prepared in the same manner as in Example 1.
In Example 1, the biodegradable resin knitted fabric is made of polylactic acid fiber, warp 500 denier / 24 filament, weft 500 denier / 24 filament, fabric density, warp 54 / inch, weft 54 / inch, weight 258 g / m. ² was used. Using (A), the biodegradable resin woven fabric was impregnated and adhered in the same manner as in Example 1, and a biodegradable resin flame-retardant woven fabric having a weight of 268 g / m ² was wound around a winder.
In Example 1, 200 parts by weight of polybutylene succinate resin emulsion Bionore EM301 (registered trademark of Showa High Polymer Co., Ltd .: solid content 50%) was used in (B), and the polylactic acid resin emulsion Prasema L110 was not used. 50 parts by weight of water was added. Other than that, the biodegradable resin emulsion was used in the same manner as in Example 1 and the biodegradable resin flame-retardant fabric was treated in the same manner as in Example 1 to obtain a weight of 432 g / m. The sheet ² was rolled up with a winder. The composition of the used sheet-like woven or knitted fabric, flame retardant, biodegradable resin emulsion, antibacterial / antifungal agent and weathering agent is shown in Table 2, and the results of measuring the performance of the treated mesh sheet are shown in Table 4.

Comparative Example 1
In Example 1, the impregnation treatment using (A) was not performed. In Example 1, (B) uses the same biodegradable resin emulsion as in Example 1, and the same biodegradable resin sheet-like woven fabric as in Example 1 is treated by impregnation and adhesion as in Example 1 to produce A mesh sheet original fabric having a weight of 315 g / m ^{2 made} of a decomposable resin flame retardant coating was wound with a winder. The composition of the used sheet-like woven or knitted fabric, flame retardant, biodegradable resin emulsion, antibacterial / antifungal agent, and weathering agent is shown in Table 5, and the results of measuring the performance of the treated mesh sheet are shown in Table 7.

Comparative Example 2
In Example 1, (A) used the same thing as Example 1. Using (A), the biodegradable resin sheet-like woven fabric similar to that in Example 1 was subjected to the same impregnation and adhesion treatment as in Example 1, and a biodegradable resin flame-retardant woven fabric having a weight of 255 g / m ² was wound into a winder. I wound up with. In Example 1 (B), 10 parts by weight of coated ammonium polyphosphate Hostafram AP462 (Clariant Japan Co., Ltd. registered trademark) and 70 parts by weight of water were added. Others were the same as in Example 1, and Similarly, a biodegradable flame retardant (B) was prepared.
Using the biodegradable resin emulsion, the biodegradable resin was processed into a face fabric by treating the face fabric in the same manner as in Example 1, and a mesh sheet original fabric having a weight of 325 g / m ² consisting of a flame retardant coating of biodegradable resin was used as a winder. I wound up with. The composition of the used sheet-like woven or knitted fabric, flame retardant, biodegradable resin emulsion, antibacterial / antifungal agent, and weathering agent is shown in Table 5, and the results of measuring the performance of the treated mesh sheet are shown in Table 7.

Comparative Example 3
In Example 1, (A) used the same thing as Example 1. Using (A), the biodegradable resin sheet-like woven fabric similar to that in Example 1 was subjected to the same impregnation and adhesion treatment as in Example 1, and a biodegradable resin flame-retardant woven fabric having a weight of 255 g / m ² was wound into a winder. I wound up with. In Example 1, 130 parts by weight of coated ammonium polyphosphate hostaflam AP462 (registered trademark of Clariant Japan Co., Ltd.) was added in (B). Others were the same as in Example 1 and biodegraded in the same manner as in Example 1. Flame retardant liquid (B) was prepared.
Using the biodegradable resin emulsion, the biodegradable resin was processed into a face fabric by treating the face fabric in the same manner as in Example 1, and a mesh sheet raw material having a weight of 360 g / m ² consisting of a flame retardant coating of the biodegradable resin was wound into a winder. I wound up with. The composition of the used sheet-like woven or knitted fabric, flame retardant, biodegradable resin emulsion, antibacterial / antifungal agent, and weathering agent is shown in Table 5, and the results of measuring the performance of the treated mesh sheet are shown in Table 7.

Comparative Example 4
In Example 1, (A) used the same thing as Example 1. Using (A), the biodegradable resin sheet-like woven fabric similar to that in Example 1 was subjected to the same impregnation and adhesion treatment as in Example 1, and a biodegradable resin flame-retardant woven fabric having a weight of 255 g / m ² was wound into a winder. I wound up with. In Example 1, (B) was added 300 parts by weight of water in Example 1. Otherwise, the biodegradable flame retardant (B) was prepared in the same manner as in Example 1.
The (B) biodegradable resin emulsion was used, and the biodegradable resin was treated with a facial fabric in the same manner as in Example 1 to prepare a mesh sheet raw material having a weight of 270 g / m ² consisting of a biodegradable resin flame retardant coating. The anti-winder was wound up with a winder. The composition of the used sheet-like woven or knitted fabric, flame retardant, biodegradable resin emulsion, antibacterial / antifungal agent, and weathering agent is shown in Table 6, and the results of measuring the performance of the treated mesh sheet are shown in Table 8.

Comparative Example 5
In Example 1, (A) used the same thing as Example 1. Using (A), the biodegradable resin sheet-like woven fabric similar to that in Example 1 was subjected to the same impregnation and adhesion treatment as in Example 1, and a biodegradable resin flame-retardant woven fabric having a weight of 255 g / m ² was wound into a winder. I wound up with. In Example 1, (B) was added 20 parts by weight of water in Example 1. Otherwise, the biodegradable flame retardant (B) was prepared in the same manner as in Example 1.
The (B) biodegradable resin emulsion was used, and the biodegradable resin was treated with a face fabric in the same manner as in Example 1 to prepare a mesh sheet raw material having a weight of 495 g / m ² consisting of a biodegradable resin flame retardant coating. The anti-winder was wound up with a winder. The composition of the used sheet-like woven or knitted fabric, flame retardant, biodegradable resin emulsion, antibacterial / antifungal agent, and weathering agent is shown in Table 6, and the results of measuring the performance of the treated mesh sheet are shown in Table 8.

Comparative Example 6
In Example 1, (A) used the same thing as Example 1. Using (A), the biodegradable resin sheet-like woven fabric similar to that in Example 1 was subjected to the same impregnation and adhesion treatment as in Example 1, and a biodegradable resin flame-retardant woven fabric having a weight of 255 g / m ² was wound into a winder. I wound up with. In Example 1, (B) did not add the antibacterial / antifungal agent Marcaside RT-D (registered trademark of Osaka Kasei Co., Ltd.) in Example 1. Others were the same as in Example 1, and a biodegradable flame retardant (B) was prepared in the same manner as in Example 1.
Using the biodegradable resin emulsion, the biodegradable resin was processed into a face fabric by treating the face fabric in the same manner as in Example 1, and a mesh sheet raw material having a weight of 315 g / m ² consisting of a flame retardant coating of biodegradable resin was used as a winder. I wound up with. The composition of the used sheet-like woven or knitted fabric, flame retardant, biodegradable resin emulsion, antibacterial / antifungal agent, and weathering agent is shown in Table 6, and the results of measuring the performance of the treated mesh sheet are shown in Table 8.

Comparative Example 7
In Example 1, (A) used the same thing as Example 1. Using (A), the biodegradable resin sheet-like woven fabric similar to that in Example 1 was subjected to the same impregnation and adhesion treatment as in Example 1, and a biodegradable resin flame-retardant woven fabric having a weight of 255 g / m ² was wound into a winder. I wound up with. In Example 1, (B) was the same as that in Example 1 except that the weathering agents ADK STAP LA-77 (Asahi Denka Co., Ltd.) and Tinupin 327 (Ciba-Gigi Co., Ltd.) were not added. Otherwise, the biodegradable flame retardant (B) was prepared in the same manner as in Example 1.
The (B) biodegradable resin emulsion was used, and the biodegradable resin was treated in the same manner as in Example 1 to treat the face fabric to form a mesh sheet raw material having a weight of 318 g / m ² composed of a biodegradable resin flame retardant coating. The anti-winder was wound up with a winder. The composition of the used sheet-like woven or knitted fabric, flame retardant, biodegradable resin emulsion, antibacterial / antifungal agent, and weathering agent is shown in Table 6, and the results of measuring the performance of the treated mesh sheet are shown in Table 8.

Measuring method of various performances Combustion test Measured according to “JIS L 1091” Method A-1 (45 degree micro burner method)
A-2 method (45 degree Meckel burner method)
Category 3 Pass Category 2,1 Fail D method (flame contact method)
Category 2 Pass Category 1 Fail 2 Degradable samples were put into a composter and left at 80 ° C. for 14 days to evaluate the remaining state of each sample after the test.
Degradability: Residue after testing
No: ○
Yes: ×
3. Weight: Measured according to “JIS L 1096” Tensile test: measured according to "JIS L 1096" 5. Flexibility: Measured according to “JIS L 1096” (45 degree cantilever method)
Test piece: width 1.5 cm, length 20 cm
Flexibility is based on evaluation of stiffness.
Very flexible ◎ (10cm or less)
Flexible ○ (10-15cm)
Hard △ (15-20cm)
Very hard × (20cm or more)
6). No unraveling of ears
Unsolved occurrence ×
7). Scott abrasion method (Method B): Measured according to “JIS L 1096” 1 (kgf) × 1000 (times)
No peeling ◎
There is slight peeling ○
There is peeling △
Exfoliation is large ×
8). Sputum test 1) Test bacteria
2) Test method and evaluation method The mixed cells of the above-mentioned test strains were applied to a JIS medium, the sample 30 mm × 30 mm was pasted, and cultured in a JIS medium at a temperature of 28 ° C. for 14 days. It was determined by the evaluation method of halo image, JIS Z 2911: 2000.
9. Weather resistance JIS L 0842
According to “Testing method for fastness to dyeing with carbon arc lamp”.
Measurement time: 500 hours No change in color: ◎
There is a little color change: ○
Equivalent to color change: ×

The construction work sheet of the present invention is used to protect the environment by spreading it on the construction work site, to prevent dangers, and to prevent fires. As it is, it will not pollute the construction site or discolor the environment. And after use, if it is buried in the soil, it will be biodegraded and become soil, so it will not cause environmental pollution and can be used with less pollution than conventional construction sheets.

Claims (14)

  100 parts by weight of the biodegradable resin base fabric is treated with an aqueous solution or emulsion containing at least one selected from an aliphatic cyclic phosphonate ester and a condensed phosphate ester compound, and the solid content of the solution 1 to 20 parts by weight of impregnated and heat-treated biodegradable resin flame retardant base fabric 100 parts by weight At least one kind selected from coated ammonium phosphate and condensed phosphate ester compounds 20 to 20 parts by weight 100 parts by weight, 0.5 to 3 parts by weight of antibacterial / antifungal agent, and 0.5 to 2 parts by weight of weathering agent are added so that the solid content of the biodegradable resin emulsion is 10 to 70 parts by weight. A biodegradable sheet for construction work that has an antibacterial / antifungal agent coated on the surface and dried by heating.   The biodegradable construction work sheet having the antibacterial / antifungal agent according to claim 1, wherein the resin of the biodegradable resin base fabric is a polylactic acid resin.   The biodegradable construction base sheet having a fungicide / antifungal agent according to claim 1, wherein the resin of the biodegradable resin base fabric is a modified polyethylene terephthalate resin.   The biodegradable construction sheet having the antibacterial / antifungal agent according to any one of claims 1 to 3, wherein the fiber strength of the biodegradable resin base fabric is 2.6 cN / dtex or more. . The biodegradable construction emulsion sheet having the antibacterial / antifungal agent according to any one of claims 1 to 4, wherein the biodegradable resin emulsion is a polylactic acid resin.   The biodegradable resin emulsion is a polybutylene succinate resin or a polybutylene succinate adipate resin, wherein the biodegradable resin emulsion has a fungicide / antifungal agent according to any one of claims 1 to 4. Sheet.   The biodegradable construction sheet having a fungicide / antifungal agent according to any one of claims 1 to 6, wherein the condensed phosphate ester compound is resorcinol diphenyl phosphate as a main compound.   The biodegradable construction work having antibacterial / antifungal agent according to any one of claims 1 to 7, wherein the coated ammonium polyphosphate is a surface-coated ammonium polyphosphate having an average particle size of 30 µm or less. Sheet.   The biodegradable construction work sheet having the antibacterial / antifungal agent according to any one of claims 1 to 8, wherein the antibacterial / antifungal agent is a polycyclic nitrogen-containing compound.   The biodegradation having the antibacterial / antifungal agent according to any one of claims 1 to 9, wherein the weathering agent comprises at least one selected from an ultraviolet absorber, a light stabilizer, and an antioxidant. For construction construction.   The antibacterial agent according to any one of claims 1 to 10, wherein the sheet has flame retardancy of A-1 method category 3, A-2 method category 3, and D method category 2 of "JIS L 1091".・ Biodegradable construction sheet with antifungal agent. The biodegradable construction work sheet having the antibacterial / antifungal agent according to any one of claims 1 to 11, wherein the sheet is a mesh sheet.   The biodegradable construction having the antibacterial / antifungal agent according to any one of claims 1 to 12, wherein the biodegradable base fabric is a biodegradable fabric, a biodegradable knitted fabric, or a biodegradable nonwoven fabric. Construction sheet. Aliphatic cyclic phosphonic acid ester relative to the biodegradable resin base fabric 100 parts by weight, was treated with an aqueous solution or and emulsions containing at least one compound selected from condensed phosphoric acid ester compounds, the solid in the liquid fraction 1 to 20 parts by weight of impregnated and heat-treated biodegradable resin flame retardant base fabric 100 parts by weight At least one kind selected from coated ammonium phosphate and condensed phosphate ester compounds 20 to 20 parts by weight 100 parts by weight, antibacterial / antifungal agent 0.3 to 3 parts by weight, weathering agent 0.5 to 2 parts by weight of the biodegradable resin emulsion added so that the solid content is 10 to 70 parts by weight. A biodegradable construction sheet having antibacterial and antifungal agents, characterized by covering the surface and then drying by heating.