JPH03205441A - Vinyl chloride resin composition excellent in retaining ratproofing agent contained therein - Google Patents

Abstract

PURPOSE:To obtain the title compsn. without increasing the amt. compounded of a ratproofing agent by compounding a specific plasticizer into a ratproofing compsn. comprising a vinyl chloride resin and a microcapsuled ratproofing agent mixed therewith. CONSTITUTION:A polyester plasticizer (e.g. an adipate plasticizer) is compounded into a ratproofing vinyl chloride compsn. comprising a vinyl chloride resin and a microcapsuled ratproofing agent (e.g. cycloheximide) mixed therewith.

Description

[Detailed description of the invention]

[Industrial Application Field] The present invention relates to a vinyl chloride resin composition used as an insulating material for covering electric wires, and in particular, the present invention relates to a vinyl chloride resin composition that is used as an insulating material for covering electric wires, and in particular, a rodent repellent such as microencapsulated cycloheximine 1 as a rodent repellent. Regarding the vinyl chloride composition kneaded into the resin compound, the persistence of the rodent repellent such as cycloheximide is increased without increasing the amount of rodent repellent such as cycloheximide added,
The present invention relates to a vinyl chloride composition with excellent persistence of a rodent repellent that can maintain its rodent repellent effect for a long period of time.

[Conventional technology]

In recent years, excellent composite resins have been made at low cost, and #
@Insulated wires, cables, etc. are increasingly being coated with TCM resin because of its good overall performance. As a composite resin used for insulating electric wires, cables, etc., vinyl chloride resin is mainly used because of its low cost and ease of terminal treatment during construction. This vinyl chloride resin is mechanically strong, flame retardant, has good chemical resistance and electrical properties, can be easily colored, and can be machined easily. ) is used. Insulated wires, cables, etc. coated with such vinyl chloride resin are laid indoors and outdoors and are constantly in contact with the outside world. For example, in the case of a power cable, this vinyl chloride insulated wire or vinyl chloride resin cable is produced by coating a conductor that supplies power with an internal semiconducting layer, coating this internal semiconducting layer with an insulator, 7@ An outer semiconducting layer is coated on the entire body, and a sheath is coated as the outermost layer on the outer semiconducting layer. A synthetic resin is used for the inner semiconductive layer, the insulator, the outer semiconductive layer, and the sheath. Such synthetic resins are easily damaged when they come into contact with or collide with hard metals, and in some cases even partially become damaged. These insulated wires, cables, etc. are not intentionally damaged by humans, but they are often bitten by small animals in the outside world, especially rats. This Il4A
eThe layer that covers the conductor of electric wires, cables, etc. is important for insulating the conductors and insulating them from the earth, and preventing ground faults. Damage to the layer has a serious effect on the durability of insulated wires, cables, etc. For this reason, rat-proofing measures have been taken for N-edge wires, cables, etc. As a second measure, rat-proof wires, rat-proof cables, etc., in which a rat-proofing agent is added to the outermost coating layer of insulated wires, cables, etc., are being considered. As this rodent repellent, cycloheximide, which is a type of antibiotic that has an odor and taste that is repellent to rodents, has been used. Conventionally, rat-proof insulated wires, rat-proof cables, and the like are disclosed in, for example, Japanese Patent Application Laid-open No. 169003/1983. These conventional rat-proof insulated wires, rat-proof cables, etc. consist of a conductor made of stranded wires, a vIAa body made of a vinyl chloride composition, etc. coated on the outer peripheral surface of the conductor by an extrusion coating method, and this insulation. It is protected by a rat-proof coating layer provided on the outer circumferential surface of the body. [Problem to be Solved by the Invention 1] A vinyl chloride composition using cycloheximide contains vinyl chloride resin as a polymer component, and plasticizers such as phthalate esters, trimellitic acid esters, chlorinated paraffins,
Alternatively, cycloheximide, a microencapsulated rodent repellent, is kneaded into a polyvinyl chloride resin polymer containing a plasticizer and an epoxy compound or a phosphate compound. These microcapsules are made by adding a repellent to a solution of gelatin and gum arabic, and stirring until a single liquid membrane capsule forms an aggregate with a diameter of 20 to 100 microns (μ) and becomes a group. In addition to those produced by adding acids, capsule walls are used that are made of polymeric materials formed using reactive materials such as monomers or low molecular weight prepolymers. For example, it is made of melamine resin, polyamide, polyester, etc. In addition to general cycloheximide, repellents encapsulated in these microcapsules include butyltin compounds, mercabutane derivatives, creosote oils, naphthalene, amino compounds, etc. Here, cycloheximide is used as a repellent. I am using it. Furthermore, the microcapsules have a spherical diameter of 20 to 100 microns (μ) and cannot be visually recognized in reality. Conventional rodent-proof vinyl chloride polymers constructed in this way have a problem in that the rodent-proofing properties of microencapsulated heximide as a rodent-proofing agent are low in durability. There is. The present invention provides a vinyl chloride composition in which a microencapsulated rodent repellent such as cycloheximide is kneaded into a vinyl chloride resin compound. It is an object of the present invention to provide a vinyl chloride composition with excellent persistence of the rodent repellent, which can increase the persistence of the rodent repellent and maintain its rodent repellent effect for a long period of time. [Means for Solving the Problems] In order to achieve the above object, in the vinyl chloride composition of the present invention, which has excellent rodent repellent persistence, a microencapsulated rodent repellent is added to a vinyl chloride resin. The rodent-proof vinyl chloride composition that can be kneaded is made by blending the rodent-proof vinyl chloride resin with a polyester plasticizer. That is, in order to achieve the above object, a polyester plasticizer is blended into the rodent-proof vinyl chloride composition in the rodent-proofing vinyl chloride composition of the present invention with excellent persistence. and make the molecules of the vinyl chloride composition dense,
This prevents the rodent repellent from seeping out to the surface of the vinyl chloride composition and diluting it. In addition, in order to achieve the above object, the vinyl chloride composition of the present invention with excellent rodent repellent persistence contains both a phthalic acid ester plasticizer and an adipic acid polyester plasticizer as plasticizers. By adding a polyester plasticizer (adipic acid polyester plasticizer),
The molecules of the vinyl chloride composition are closely spaced to prevent the rodent repellent from seeping out to the surface of the vinyl chloride composition and diluting it. As described above, the survivability can be improved simply by adding a polyester plasticizer to a vinyl chloride composition containing a phthalic acid plasticizer and a trimellitic acid plasticizer in a vinyl chloride resin. Furthermore, in order to achieve the above object, in the vinyl chloride composition of the present invention which has excellent rodent repellent persistence, phthalic acid-based plasticizers, which have been conventionally used as plasticizers in vinyl chloride compositions, are used. A polyester plasticizer (adipic acid polyester plasticizer) is used instead of an ester plasticizer to make the molecules of the vinyl chloride composition denser, and the rodent repellent from the vinyl chloride composition oozes out to the surface and becomes diluted. This restrains people from doing so. In this way, phthalic acid plasticizer is added to vinyl chloride resin, and polyester plasticizer is added to vinyl chloride resin instead of 1.
The survivability of the rodent repellent (cycloheximide) improves when it is added at a concentration close to 00%. Furthermore, in order to achieve the above object, in the vinyl chloride composition of the present invention, which has excellent rodent repellent persistence, 100 parts by weight of the vinyl chloride resin and 25 to 120 parts by weight of the adipic acid polyester plasticizer are used. parts, 10 to 20 parts by weight of phthalic acid ester plasticizer, 4 parts by weight of barium zinc stabilizer, and 2 to 2 parts by weight of microencapsulated cycloheximide.
It is made by blending 3 parts by weight. The remaining amount of this microencapsulated cycloheximide is
If the rate of reduction of the rodent repellent is approximately constant, increasing the amount of microencapsulated cycloheximide added as much as possible will increase the amount and maintain the rodent repellent effect for a long period of time. However, the rodent repellent cycloheximide is expensive, and when added in large quantities, it reduces the cost of vinyl chloride compositions.
Furthermore, if added in large amounts, they may aggregate in a dry blend, mixer, or extruder, easily destroying the capsule wall material, and adversely affecting the appearance of the product. Therefore, the ideal amount of microencapsulated cycloheximide to be added is 1 part by weight to 3 parts by weight. And, 30 parts by weight of calcium carbonate is blended into the vinyl chloride resin. (Function) A polyester plasticizer is blended into the rodent-proof vinyl chloride composition, or a polyester plasticizer is added in place of the phthalate ester plasticizer that has traditionally been used as a plasticizer for vinyl chloride compositions. (adipate-based polyester plasticizer) to make the molecules of the vinyl chloride composition denser,
Since the rodent repellent in the vinyl chloride composition is suppressed from seeping out to the surface and being diluted, the rodent repellent such as cycloheximide is prevented from coming out from the vinyl chloride composition, and the rodent repellent such as cycloheximide is prevented from leaking out from the vinyl chloride composition. The long-term persistence of a rodent repellent such as cycloheximide can be improved without increasing the amount of rodent repellent added. In addition, by blending both a phthalic acid ester plasticizer and an adipic acid polyester plasticizer as plasticizers, we can create a polyester plasticizer (adipic acid polyester plasticizer).
By blending, the molecules of the vinyl chloride composition are made denser,
Since the rodent repellent from the vinyl chloride composition is suppressed from seeping out to the surface and being diluted, the rodent repellent such as cycloheximide is prevented from leaking out from the vinyl chloride composition, and the rodent repellent such as cycloheximide is prevented from leaking out from the vinyl chloride composition. The long-term persistence of a rodent repellent such as cycloheximide can be improved without increasing the amount of the agent added. Furthermore, 100 parts by weight of vinyl chloride resin, 25 to 120 parts by weight of ar-11-dipic acid polyester plasticizer,
Since it contains 10 to 20 parts by weight of a phthalic acid ester plasticizer, 4 parts by weight of a barium zinc stabilizer, and 2 to 3 parts by weight of microencapsulated cycloheximide, it is more effective against rodents such as cycloheximide than a vinyl chloride composition. It is possible to suppress the release of the agent and improve the long-term persistence of the rodent repellent such as cycloheximide without increasing the amount of the rodent repellent such as cycloheximide. Furthermore, since 30 parts by weight of calcium carbonate is blended with the vinyl chloride resin, the strength can be improved.

【Example】

Hereinafter, specific examples of the present invention will be described in comparison with comparative examples. Example 1 In this example, vinyl chloride resin (specifically, P-110
0 vinyl chloride resin), 20 parts by weight of dioctyl phthalate, 10 parts by weight of an adipic acid-based polyester plasticizer (specifically, PN-1020 manufactured by Adeka-112-Argus Co., Ltd.), and barium zinc-based It contains 4 parts by weight of a stabilizer (specifically, Wrap 20 manufactured by Adeka Argus Co., Ltd.) and 2 parts by weight of microencapsulated cycloheximide. Example 2 In this example, vinyl chloride resin (specifically, P-110
0 vinyl chloride resin), 10 parts by weight of dioctyl phthalate, and an adipic acid polyester plasticizer (specifically, PN= manufactured by Adeca Argus Co., Ltd.)
1020), 4 parts by weight of a barium zinc stabilizer (specifically, Wrap 20 manufactured by Adeka Argus Co., Ltd.), and 2 parts by weight of microencapsulated cycloheximide. Example 3 In this example, vinyl chloride resin (specifically, P-110
0 vinyl chloride resin), 25 parts by weight of an adipic acid polyester plasticizer (specifically, PN-102O manufactured by Adeka Argus Co., Ltd.), and a barium zinc stabilizer (specifically, Wrap 20 (manufactured by Adeka Argus Co., Ltd.) contains 4 parts by weight and 2 parts by weight of microencapsulated cycloheximide. Example 4 In this example, an adipic acid polyester plasticizer (specifically, Adeka
Argus Co., Ltd. PN-1020) 35 parts by weight, calcium carbonate 30 parts by weight, barium zinc stabilizer (specifically, Adeca Argus Co., Ltd. Wrap 20) 4
part by weight, 1 part by weight of barium stearate, and 2 parts by weight of microencapsulated cycloheximide. Example 5 In this example, an adipic acid polyester plasticizer (specifically, Adeca Argus Co., Ltd. $1j PN-10) was added to 100 parts by weight of ethylene-vinyl chloride copolymer.
20) 40 parts by weight, 30 parts by weight of calcium carbonate, 4 parts by weight of barium zinc stabilizer (specifically, Wrap 20 manufactured by Adeka Argus Co., Ltd.), 1 part by weight of barium stearate
parts by weight, and 2 parts by weight of microencapsulated cycloheximide. Example 6 In this example, based on 1.00 parts by weight of polyvinyl chloride,
40 parts by weight of an adipic acid polyester plasticizer (specifically, PN-1020 manufactured by Adeka Argus Co., Ltd.),
30 parts by weight of calcium carbonate, barium zinc stabilizer (specifically, Lap 2o manufactured by Adeka Argus Co., Ltd.)
4 parts by weight, 1 part by weight of barium stearate, and 2 parts by weight of microencapsulated cycloheximide. Example 7 In this example, an adipic acid polyester plasticizer (specifically, PN manufactured by Adeka Argus Co., Ltd.) was added to 100 parts by weight of ethylene-vinyl acetate-vinyl chloride copolymer.
-1 020) 40 parts by weight, 30 parts by weight of calcium carbonate, 4 parts by weight of barium zinc stabilizer (specifically, Wrap 20 manufactured by Adeka Argus Co., Ltd.), 1-15 parts by weight of barium stearate, microcapsules 2 parts by weight of cycloheximide. Example 8 In this example, vinyl chloride resin (specifically, P-110
0 vinyl chloride resin), 120 parts by weight of an adipic acid polyester plasticizer (specifically, PN-1020 manufactured by Adeka Argus Co., Ltd.), and a barium zinc stabilizer (specifically, It contains 4 parts by weight of Wrap 20 (manufactured by Adeka Argus Co., Ltd.) and 3 parts by weight of microencapsulated cycloheximide. In Conventional Example 1, 1.30 parts by weight of dioctyl phthalate and a PB stabilizer (tribasic lead sulfate rPb s t H S a st
4 parts by weight of the mixture) and 2 parts by weight of microencapsulated cycloheximide. Conventional Example 2 contains 1-35 parts by weight of dioctyl phthalate, 30 parts by weight of calcium carbonate, and 8 parts by weight of PB stabilizer (tribasic lead sulfate, Pl) based on 100 parts by weight of ethylene-vinyl chloride copolymer. 4 parts by weight of barium stearate, and 2 parts by weight of microencapsulated cycloheximide. Conventional Example 3 contains 50 parts by weight of dioctyl phthalate, 30 parts by weight of calcium carbonate, and a PB stabilizer (tribasic sulfuric acid, Pb-st, S
4 parts by weight of a-st mixture), 4 parts by weight of barium stearate, and 2 parts by weight of microencapsulated cycloheximide. In Conventional Example 4, 1.5 parts of dioctyl phthalate was added to 〇〇 parts by weight of ethylene-vinyl acetate-vinyl chloride copolymer.
0 parts by weight, 30 parts by weight of calcium carbonate, P1] system stabilizer (tribasic lead sulfate + p b s t + Sa-s
t), 1 part by weight of barium stearate, and 2 parts by weight of microencapsulated cycloheximide. Conventional Example 5 contains 1-35 parts by weight of dioctyl phthalate and 30 parts by weight of calcium carbonate to 100 parts by weight of polyvinyl chloride.
Parts by weight, PB stabilizer (tribasic lead sulfate, Pb-st,
4 parts by weight of barium stearate, and 3 parts by weight of microencapsulated cycloheximide. The amount of microencapsulated cycloheximi-1- added was 2 to 3 parts by weight, taking into consideration that it would not exceed the amount added of conventional rodent-proof vinyl chloride compositions. Regarding the vinyl chloride compositions based on these examples and the conventional vinyl chloride compositions, Sunshine
Table 1 shows the comparative results of the cycloheximide residual rate test using the Weather-Ometer. The cycloheximide residual rate determined by the Sunshine Weather-Ometer in Table 1 is the residual amount of cycloheximide in the vinyl chloride composition after 3000 hours of Sunshine Weather-Ometer, expressed as a percentage. The conditions for the cycloheximide residual rate test using the Sunshine Weather Ometer in Table 1 are as follows: black panel temperature: 63±5° C., cycle: 18 minutes of dispersion water during irradiation, and humidity during irradiation = 50%. Also, Sunshine Weather Ometer 3 in Table 1
Regarding the results of the corrosion damage test after 0 0 0 T{r, the vinyl chloride composition based on the example and the vinyl chloride composition of the conventional example were each wrapped with a sheet with a thickness of 1 mI1 after Sunshine Weather Ometer 3000b. I.
Prepare the test sample by wrapping the fixed sample and securing the surrounding area with staples. Three Wistar rats (body weight: 400 to 500 g) that had been fasted for 24 hours were placed in a cage and left overnight (9 hours) in this test sample, and the degree of feeding damage was observed. (0) is intact or has tooth-shaped scratches, (×)-2
0- indicates that there are many bite marks and small holes. The embodiments (Nα1 to Nn 8 ) and the conventional example (Nn
As is clear from the comparison with Examples (Nα1 to Nα5), according to the present invention, in all Examples (Nα1 to Nα8), the cycloheximide residual rate by Sunshine Weather Ometer exceeds 60% (62% to 80%). %), and the results of the feeding damage test after Sunshine Weather Ometer 3000 were (0) either intact or with tooth-shaped scratches caused by rats. On the other hand, in the conventional example (N(11
~Nα5), the cycloheximide residual rate measured by Sunshine Weather-Ometer was less than 50% (33% to 46%), and the results of the feeding damage test after Sunshine Weather-Ometer 3000 I{r were as follows. All of them had many bite marks marked by rats (×), and there were small holes created by biting by rats.

【Effect of the invention】

Since the present invention is configured as described above, it produces the effects described in Section 21. A polyester plasticizer may be blended into a rodent-proof vinyl chloride composition, or a polyester plasticizer (adipine Acid-based polyester plasticizer) is used to make the molecules of the vinyl chloride composition dense,
Since the rodent repellent from the vinyl chloride composite is suppressed from seeping out to the surface and becoming diluted, the rodent repellent such as cycloheximide is prevented from coming out from the vinyl chloride composite, and the rodent repellent such as cycloheximide is The long-term persistence of a rodent repellent such as cycloheximide can be improved without increasing the amount of rodent repellent added. In addition, by blending both a phthalic acid ester plasticizer and an adipic acid polyester plasticizer as plasticizers, we can create a polyester plasticizer (adipic acid polyester plasticizer).
By blending the molecules of the vinyl chloride composition,
Since the rodent repellent from the vinyl chloride composition is suppressed from seeping out to the surface and being diluted, the rodent repellent such as cycloheximide is prevented from leaking out from the vinyl chloride composition, and the rodent repellent such as cycloheximide is prevented from leaking out from the vinyl chloride composition. The long-term persistence of a rodent repellent such as cycloheximide can be improved without increasing the amount of the agent added. Furthermore, 100 parts by weight of vinyl chloride resin, 25 to 120 parts by weight of adipic acid polyester plasticizer, 10 to 20 parts by weight of phthalic acid ester plasticizer, and 4 parts by weight of barium zinc stabilizer were microencapsulated. Since it contains 2 to 3 parts by weight of cycloheximide, it suppresses the release of rodent repellents such as cycloheximide from the vinyl chloride composition, and prevents rodent repellents such as cycloheximide from being added without increasing the amount of rodent repellents such as cycloheximide. The long-term persistence of rat poison can be improved. Furthermore, since 30 parts by weight of calcium carbonate is blended with the vinyl chloride resin, the strength can be improved.

Claims (6)

[Claims] (1) In a rodent-proof vinyl chloride composition formed by kneading a microencapsulated rodent-proofing agent into a vinyl chloride-based resin, a polyester plasticizer is blended with the rodent-proofing vinyl chloride-based resin. A vinyl chloride composition with excellent persistence as a rodent repellent. (2) The survivability of a rodent repellent made by kneading microencapsulated cycloheximide into a vinyl chloride resin containing a phthalic acid ester plasticizer, an adipic acid polyester plasticizer, a stabilizer, and a lubricant. Excellent vinyl chloride composition. (3) an adipic acid polyester plasticizer, a stabilizer,
A vinyl chloride composition with excellent persistence as a rodent repellent, which is obtained by kneading microencapsulated cycloheximide into a vinyl chloride resin blended with a lubricant. (4) 100 parts by weight of vinyl chloride resin, 25 to 120 parts by weight of adipic acid polyester plasticizer, 4 parts by weight of barium zinc stabilizer, and 2 to 3 parts by weight of microencapsulated cycloheximide. A vinyl chloride composition with excellent persistence as a rodent repellent. (5) 100 parts by weight of vinyl chloride resin, 25 to 120 parts by weight of adipic acid polyester plasticizer, 10 to 20 parts by weight of phthalic acid ester plasticizer, 4 parts by weight of barium zinc stabilizer, microcapsules A vinyl chloride composition containing 2 to 3 parts by weight of cycloheximide having excellent rodent repellent persistence. (6) Add 30% calcium carbonate to the above vinyl chloride resin.
A vinyl chloride composition having excellent persistence of the rodent repellent according to claim 4 or 5, wherein the rodent repellent is blended in parts by weight.