JP2007333012A - Reinforcement method of transparent vinyl chloride tube - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a method which easily reinforces transparent vinyl tube by suppressing cost while keeping transparency. <P>SOLUTION: The present invention applies vinyl chloride resin system adhesive on the outer periphery of transparent vinyl chloride tube as an enforcement method of the transparent vinyl chloride tube. Additionally, its transparency can be attained so that the inside of the tube can be visually observed in a state that the above-mentioned vinyl chloride resin system adhesive is applied and dried on the vinyl chloride tube. The above-mentioned vinyl chloride resin system adhesive is constituted by a vinyl chloride resin of 5-25 wt.% and an organic solvent of 75-95 wt.%. <P>COPYRIGHT: (C)2008,JPO&INPIT

Description

  The present invention provides a transparent polyvinyl chloride tube suitable for a case where the strength of a polyvinyl chloride tube (hereinafter referred to as a polyvinyl chloride tube), particularly a transparent polyvinyl chloride tube that is significantly deteriorated in photochemistry (ultraviolet rays or the like) is restored by a simple operation. It relates to a reinforcing method.

  PVC pipes include transparent pipes and colored pipes such as gray, all of which have useful physical and chemical properties and are used in various fields. Further, for example, in the semiconductor manufacturing field, a transparent tube that makes the inside of a tube visible is often used as a protection tube that protects piping material and piping used in a severe environment. Here, the transparent PVC pipe is more likely to be photochemically deteriorated than the colored PVC pipe, and the cracks generated on the pipe surface are rapidly expanded, so that the frequency of regular inspections is increased and early replacement is unavoidable. In particular, a brotect tube that also serves as a leak prevention in the event of a disaster such as an earthquake requires a lot of early inspection and replacement. However, in some cases, it is necessary to stop the operation in order to replace the PVC pipe piped in the manufacturing facility, but it may not be possible to stop the operation in a facility that is operating at full capacity.

  Patent Documents 1 and 2 disclose a configuration that reinforces a PVC pipe so that it can be used continuously when the PVC pipe cracks or approaches the replacement time, as countermeasures as described above. That is, in the method of Patent Document 1, for example, a target PVC pipe is covered with a surface mat, a half pipe, or the like, and an FRP layer is formed on the outside thereof. The method of Patent Document 2 is an acrylic resin emulsion (copolymer of 20 to 60% by weight of styrene, 5 to 50% by weight of butyl acrylate and / or 2-ethylhexyl acrylate, and 0 to 5% by weight of α, β-unsaturated carboxylic acid). A coating agent in which an aromatic alcohol is mixed with the emulsion) and the coating agent is applied to a product such as a polyvinyl chloride sheet to impart weather resistance to the product.

JP 11-336945 A JP 2000-2043313 A

  In the method of Patent Document 1 described above, the PVC pipe is covered with a surface mat or a half pipe and the FRP layer is formed on the outside, so that not only the operability is bad, but there are some places that are difficult to apply when the piping system is curved. Transparency is impaired when it occurs or in the case of transparent PVC pipes. Further, in the method of Patent Document 2, preparation of an acrylic resin emulsion is troublesome, and even if it is effective for a semi-rigid or soft polyvinyl chloride sheet, the effect of imparting weather resistance to a hard PVC pipe cannot be expected so much.

  From the background as described above, the present inventors assumed a situation in which cracks occurred in a part of the existing pipe made of transparent PVC pipe or a part of the pipe or the deterioration progressed faster than planned. As a result, the present invention has been completed as a result of studying a configuration that can be easily reinforced at a low cost while maintaining the transparency of the PVC pipe without stopping the operation of the manufacturing facility. That is, the method for reinforcing a transparent PVC pipe according to the present invention is characterized in that a vinyl chloride resin adhesive is applied to the outer peripheral surface of the transparent PVC pipe.

The present invention as described above is preferably embodied as follows.
The first is that the vinyl chloride resin adhesive becomes transparent to the extent that the inside of the pipe is visible in a state of being applied and dried on the polyvinyl chloride pipe (claim 2).
Secondly, the vinyl chloride resin adhesive is composed of 5 to 25 wt% of vinyl chloride resin and 75 to 95 wt% of an organic solvent.
Thirdly, the vinyl chloride resin adhesive is applied to a polyvinyl chloride tube so that the coating thickness after drying is less than 1 mm (Claim 4).

(A) The invention of claim 1 is a simple operation of coating and drying a transparent PVC pipe or a transparent PVC pipe before the pipe using a general vinyl chloride resin adhesive. Covers the scratches and deteriorated part of the outer peripheral surface, and as shown in the examples, the elongation is recovered to a state close to the initial stage of pipe forming, which is extremely effective for weather resistance, wear resistance, and scratch resistance of the pipe surface. is there.

(A) In the invention of claim 2, the advantage of the transparent tube is maintained even after reinforcement by simply selecting the transparent PVC tube from among the commercially available products of the vinyl chloride resin adhesive.
(C) The invention of claim 3 is significant in that the composition of the vinyl chloride resin adhesive is clarified. For example, if the vinyl chloride resin is less than 5 wt%, it is subject to insufficient viscosity during coating or a reinforcing effect, and 25 wt%. If it exceeds 50%, the coatability becomes poor and it becomes difficult to form a uniform coating film.
(D) In the invention of claim 4, even if the coating film thickness is formed to be thicker than 1 mm, not only is the adhesive wasted, but an improvement in elongation rate, that is, a reinforcing effect cannot be expected as shown in the examples. It is significant that the coating thickness is specified to be 1 mm or less.

  The main part of the present invention is intended for transparent PVC pipes after piping and transparent PVC pipes before piping, and by applying a vinyl chloride resin adhesive to the PVC pipe, fine scratches on the outer peripheral surface, difficult to visually confirm It is to repair or reinforce various scratches and deterioration. Here, PVC pipes are molded using polyvinyl chloride resin or polyvinyl chloride as the main raw material, and with the addition of an improving agent or stabilizer (a substance for preventing deterioration during molding or processing) as necessary. For example, it is a hard vinyl chloride pipe defined in Japanese Industrial Standards JIS K6741 and K6742. Further, the reinforcing method of the present invention is useful regardless of the transparent PVC pipe and the colored PVC pipe to which the pigment is added, but the transparent PVC pipe is more susceptible to photochemical degradation than the colored PVC pipe. It is suitable for application to a transparent PVC pipe.

By the way, the deterioration of the PVC pipe is that when the PVC pipe is exposed to ultraviolet rays or the like for a long time, the C—C1 bond in the PVC pipe is dissociated by the photochemical reaction, and Cl is pulled out of the polymer main chain and separated in the form of HCl. This is due to the so-called polyene structure. As a characteristic of the PVC pipe, it is also known that the elongation (%), the tensile strength (kgf / cm ³ ), and the impact strength (kgf / cm ³ ) are reduced due to deterioration. The manufacturer of PVC pipe evaluates the deterioration state from the three items of elongation rate, tensile strength, and impact strength, and calculates the residual rate of the PVC pipe from the elongation rate that significantly decreases due to deterioration among the three items. However, the recommended replacement time is 30 to 50%. From such circumstances, in the examples described later, the residual rate was obtained from the elongation rate and evaluated.

  Also, in the process of breaking the pipe, the transparent PVC pipe turns white by ultraviolet rays etc. (oxidation bleaching of polyene structure), and then a part of the surface has scratches that are difficult to check visually during pipe transportation and construction, It was confirmed by the inventors' experiment that a wedge-shaped crack was formed with time and eventually broke. When the transparent PVC tube turns white, it can prevent the transmission of ultraviolet rays more than when it is transparent, but durability such as scratch resistance and wear resistance is reduced, and cracks are likely to occur. In the present invention, a vinyl chloride resin adhesive is applied to the outer peripheral surface of the PVC pipe as a countermeasure against the deterioration of the pipe and the restoration of the durability. This is because when a vinyl chloride resin adhesive is applied to the outer peripheral surface of the pipe, it fills in fine cracks and other scratches on the pipe surface and is covered with a film compatible with the PVC pipe formed by coating and drying. It is to eliminate the possibility of the occurrence and expansion of cracks by eliminating the fine cracks that cause or cause the above. Here, as a vinyl chloride resin adhesive, it is a thermoplastic type, for example, Asahi Organic Materials Co., Ltd. AV adhesive 32 (this composition is 10-20 wt% of vinyl chloride resin, 15-25 wt% of cyclohexanone, 2-butanone 40-50 wt%, acetone 15-25 wt%), Eslon 100 manufactured by Sekisui Chemical Co., Ltd. (composition is cyclohexanone 35-45 wt%, tetrahydrofuran 30-40 wt%, 2-butanone 5-15 wt%, polyvinyl chloride) Chlorine compound 10-20 wt%), Hishibond B manufactured by Mitsubishi Plastics Co., Ltd. (this composition is vinyl chloride resin 10-20 wt%, 2-butanone 35-45 wt%, cyclohexanone 30-40 wt%, acetone 5-10 wt%), etc. Can be mentioned.

It is known that the aging of the vinyl chloride material can be determined by measuring the elongation rate. If the elongation rate can be recovered, it can be said that the strength of the PVC pipe is also recovered. Therefore, in the examples, as summarized in Table 1, first, a fluorescent lamp that approximates a plurality of transparent PVC pipes to sunlight is used to forcibly emit ultraviolet rays (type of accelerated weathering tester: suga test Using a super xenon weather meter SX75 manufactured by Kikai Co., Ltd., it was deteriorated by irradiating with fluorescent lamp ultraviolet ray intensity 0.3 W / m ² ) for a predetermined time. Thereafter, a tensile test (in accordance with the tensile test method K7113 of Japanese Industrial Standard JSI) with and without applying a vinyl chloride resin adhesive (AV adhesive 32) on a transparent PVC pipe, Tensile testing machine type: Tensilance universal testing machine manufactured by Toyo Bald Vienna Co., Ltd. was used to measure elongation at break (mm) at room temperature (23 ° C) and investigate the recovery of elongation It was.

  Specifically, as test transparent PVC pipes (total length is 100 mm, outer diameter is 48 mm, inner diameter is 41 mm), 36 new test tubes of the same shape made under the same conditions and time are prepared, 6 by 6 Divided into groups. In Table 1, the sample numbers 1 to 6 are configured as a set of 6 groups with the group numbers divided into groups. Sample No. 1 is a group of transparent PVC pipes that do not irradiate ultraviolet rays and no adhesive is applied. Sample No. 2 irradiates ultraviolet rays for 300 hours (this time is equivalent to a fluorescent lamp irradiation time of 7 years or more). In the group not applied, sample number 3 was irradiated with UV light for 300 hours and the adhesive was applied to the outer peripheral surface of the tube to a coating thickness of less than 1 mm, and sample number 4 was irradiated with UV light for 300 hours to apply the adhesive to the outer peripheral surface of the tube. A group coated with a coating thickness of 1.0 mm, sample number 5 was irradiated with ultraviolet rays for 300 hours, and an adhesive was applied to the inner peripheral surface of the tube so that the coating thickness was less than 1 mm, sample number 6 was irradiated with ultraviolet rays for 300 hours. This is a group in which the adhesive is applied to the outer peripheral surface and inner peripheral surface of the tube so that the coating thickness is less than 1 mm. That is, the elongation, elongation rate, and remaining rate of elongation in Table 1 are average values of six PVC pipes.

Here, the elongation percentage (%) was calculated from Equation 1 from the distance between marked lines X and the distance between marked lines X1 at break. The distance X between the marked lines is a value (35 mm) obtained by subtracting the gripping part lengths (32.5 × 2 = 65 mm) on both sides from the full size of the PVC pipe (100 mm). The distance X1 between marked lines at the time of fracture is a measured value. (Formula 1) Elongation rate = (X1−X / X) × 100
In addition, the remaining rate (%) of the elongation rate is the case of each of the elongation rates of sample numbers 2 to 6, with the elongation rate of sample number 1 being 164% as a reference (in this case, the remaining rate of elongation rate is converted to 100%) Was calculated.

(Table 1)

(Evaluation) From the above test results, the following can be understood. First, from sample numbers 2 and 3, the residual rate of elongation is 61% if the vinyl chloride resin adhesive is not applied, but it becomes 95% by applying the vinyl chloride resin adhesive, and is about 40%. It can be recovered. Further, sample number 6 shows that the residual rate of elongation is 101%, and it can be recovered to the initial molding state by coating both inside and outside. On the other hand, from Sample No. 4, it is the same as that of Sample No. 3 that the wound of the outer peripheral surface of the PVC pipe is repaired by the coated film of the vinyl chloride resin adhesive, but it is 1 mm. It is inferred that thick coating causes a difference in coating thickness and breaks from the portion where the coating thickness is thin. For sample No. 5, it can be seen from the mechanism of deterioration and breakage that even if the inner peripheral surface of the pipe is covered, it is not reinforced by not repairing the scratches on the outer peripheral surface. Of course, these examples do not limit the present invention.

Claims (4)

  A method for reinforcing a transparent vinyl chloride pipe, comprising applying a vinyl chloride resin adhesive to the outer peripheral surface of the transparent vinyl chloride pipe.   The method of reinforcing a transparent vinyl chloride pipe according to claim 1, wherein the vinyl chloride resin adhesive becomes transparent to such an extent that the inside of the pipe can be visually observed in a state where the vinyl chloride resin adhesive is applied and dried on the vinyl chloride pipe.   The method for reinforcing a transparent vinyl chloride pipe according to claim 1 or 2, wherein the vinyl chloride resin adhesive is composed of 5 to 25 wt% of a vinyl chloride resin and 75 to 95 wt% of an organic solvent. The method for reinforcing a transparent vinyl chloride pipe according to any one of claims 1 to 3, wherein the vinyl chloride resin-based adhesive is applied to a vinyl chloride pipe so that the coating thickness after drying is less than 1 mm.