JP2007051268A - Sealing material for gas piping - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To obtain a sealing material for gas piping, which simply and surely stops gas leak from gas piping even in an active condition of pipe or gas piping in a standing condition for a long period of time and prevents recurrence of gas leak. <P>SOLUTION: The sealing material for gas piping comprises a resin which is a compound composed of an aqueous emulsion resin as a main agent and has 3,000 mPa s-8,000,000 mPa s viscosity and ≥5% elongation rate. <P>COPYRIGHT: (C)2007,JPO&INPIT

Description

  The present invention relates to a gas pipe sealing material containing a resin.

According to the gas pipe sealing material, for example, when a gas leak occurs from a threaded joint portion of the gas pipe in a live pipe state in which the gas pipe is filled with gas, the gas pipe sealing material Is applied to the gas leakage portion of the threaded joint portion, so that the gas leakage passage can be closed and the gas leakage portion can be repaired.
As such a gas pipe sealing material, those containing a resin such as acrylic silicone emulsion, cyanoacrylate, two-component curable epoxy resin, and modified silicone (see Patent Document 1) are known.

Japanese Patent Laid-Open No. 2001-146988

However, gas pipe seals containing conventional acrylic silicone emulsion and cyanoacrylate have low viscosity and may drop when applied. After the material is impregnated with the sealing material, it is difficult to stop the gas leakage unless the outside is wrapped with tape or tightened with a rubber belt until the sealing material is cured. The handling is troublesome and there is a problem that it is difficult to apply to vertical piping.
In addition, the gas pipe sealing material containing modified silicone is sensitive to the gas leak detector due to the oxime, alcohol, or acetone generated during the curing process, and it is easy for the gas leak detector to malfunction, and repair of the gas leak is difficult. It is difficult to confirm whether it is completed. In addition, the gas pipe sealing material containing the modified silicone has a problem that it is easy to peel off because of its low adhesion to the gas pipe, and there is a high risk of gas leak recurrence.
Moreover, the gas pipe sealing material (hereinafter referred to as an epoxy resin sealing material) containing a two-component curable epoxy resin has a small elongation (about 2%), and after being applied to the gas leaking part, the gas leaking part When an external force such as vibration is applied to this, the movement cannot be followed and there is a risk of peeling. In addition, the epoxy resin sealing material containing amines in particular is easily deteriorated by ultraviolet rays and has poor weather resistance. For this reason, the epoxy resin sealing material has a problem that the risk of gas leakage recurs with time.

  The present invention has been made in view of the above circumstances, and can easily and reliably block gas leakage from a gas pipe in an active pipe state or a gas pipe to be erected over a long period of time, thereby preventing the recurrence of the gas leak. The gas pipe sealing material to be obtained is provided.

  A first characteristic configuration of the present invention is a gas pipe sealing material containing a resin, wherein the resin is a compound mainly composed of an aqueous emulsion resin, and has a viscosity of 3000 mPa · s to 8000000 mPa · s, and This is a gas pipe sealing material having an elongation of 5% or more.

[Action and effect]
Since the resin is a compound mainly composed of an aqueous emulsion resin, it is not necessary to use an organic solvent. Therefore, for example, when the gas pipe sealing material of the present invention is used to repair a gas leakage part of the gas pipe, the organic solvent may volatilize and the work environment may deteriorate, which may harm the health of the worker. The worker can work more safely. Further, it is possible to easily confirm whether or not the gas leak repair has been completed without causing a malfunction of the gas leak detector due to the volatile organic solvent. In addition, when the outer periphery of the pipe location (gas leakage portion) coated with the gas pipe sealing material of the present invention is further wound with a tape or the like for repair, the adhesive layer provided on the tape is an organic solvent. Since it is not attacked, it is easy to wind a tape or the like, so workability is good.
Furthermore, since the gas pipe sealing material of the present invention has a viscosity of 3000 mPa · s to 8000000 mPa · s, even if it is applied to a gas leaking portion of a live gas pipe, the pressure of the gas leaking from the pipe is reduced. The gas leak passage can be reliably closed and the gas leak portion can be repaired. Moreover, even when it is applied to the gas leakage part of the standing gas pipe, the gas pipe sealing material of the present invention is difficult to drip and easy to handle.
In addition, since the gas pipe sealing material of the present invention has an elongation of 5% or more, the gas piping of the present invention is compared with a conventional epoxy resin sealing material having an elongation of only about 2%. Even if an external force such as vibration is applied to the gas leaking part repaired by applying a sealing material, it is easy to follow by the movement and the possibility of peeling is small.
Therefore, according to the gas pipe sealing material of the present invention, it is possible to easily and surely block gas leakage from a gas pipe in an active pipe state or a gas pipe to be erected for a long period of time, and to prevent the gas leakage from recurring. it can.

  According to a second characteristic configuration of the present invention, the aqueous emulsion resin comprises an acrylic silicone emulsion resin, a fluorine emulsion resin, an acrylic emulsion resin, a styrene butadiene synthetic rubber latex resin, an epoxy ester emulsion resin, and an aqueous urethane resin. The point is selected from the group.

[Action and effect]
Acrylic silicone emulsion resins, fluorine emulsion resins, acrylic emulsion resins, styrene butadiene synthetic rubber latex resins, epoxy ester emulsion resins, and aqueous urethane resins are generally commercially available and are easily available. In particular, a gas pipe sealing material containing an epoxy ester emulsion resin is hardly deteriorated by ultraviolet rays and has excellent weather resistance.

  The third characteristic configuration of the present invention is that it contains at least one thickener selected from the group consisting of aluminum hydroxide, calcium carbonate, silicon dioxide, cellulose, and acrylic resin.

[Action and effect]
Since it contains at least one thickener selected from the group consisting of aluminum hydroxide, calcium carbonate, silicon dioxide, cellulose, and acrylic resin, it can be obtained by appropriately adjusting the type and amount of these thickeners. Viscosity can be easily adjusted. Furthermore, these thickeners are generally commercially available and are easily available. In particular, the sealing material for gas piping containing aluminum hydroxide has high flame retardancy and can be excellent in heat resistance. Therefore, it is a piping through which a high-temperature gas flows, or the piping surface temperature can be high. Can also be used.

Embodiment
The gas pipe sealing material of the present invention is added with a resin described below and an appropriate thickener or other known additives as necessary so as to have a predetermined viscosity and elongation. It can be mixed and produced uniformly.

(resin)
Examples of resins applicable to the gas pipe sealing material of the present invention include aqueous emulsion resins (for example, acrylic silicone emulsion resins, fluorine emulsion resins, acrylic emulsion resins, styrene butadiene synthetic rubber latex resins, epoxy ester emulsions). Resins, water-based urethane resins, etc.) (for example, compounds etc.). Examples of other applicable resins include those having a fluorene-based epoxy resin as a main component.

(Thickener)
Thickeners applicable to the present invention include aluminum hydroxide, calcium carbonate, silicon dioxide, cellulose, acrylic resin, inorganic silica, urethane-modified polyether, polyether, polyacrylic acid, and modified polyacrylic. Although not limited to these, these thickeners can be used alone or in any combination as appropriate.

(Additive)
Additives applicable to the present invention include, for example, plasticizers (2,2,4-trimethyl-1,3-pentanediol monoisobutyrate, butyl cellosolve, ethylene glycol monobutyl ether, dibutyl phthalate, dipropylene glycol Monomethyl ether, etc.), talc, aluminum paste and the like, but are not limited thereto. In particular, when the gas pipe sealing material of the present invention contains an aluminum paste, it can be more adapted to the gas business law.

(viscosity)
The sealing material for gas piping of the present invention has a viscosity of 3000 mPa · s to 8000000 mPa · s.
When the viscosity is lower than 3000 mPa, it is easy to sag when applied to the gas pipe and is difficult to handle because of poor workability, and it is difficult to block the gas leaking part of the gas pipe in the live pipe state.
In addition, when the viscosity is higher than 8000000 mPa, the gas pipe sealing material is too hard, and it is difficult for the gas pipe to enter a gap (gas leak passage, etc.) in the details, and the adhesion to the gas pipe is also reduced. It becomes difficult to cover the entire circumference of the gas pipe including

(Growth rate)
The sealing material for gas piping of the present invention has an elongation of 5% or more. If the elongation is less than 5%, the adhesion to the gas piping is low, and after applying a gas pipe sealing material to the gas leaking part, if an external force such as vibration is applied to the gas leaking part, it cannot follow the movement and peels off. Therefore, there is a high risk of re-leakage of gas.

(How to repair gas leaks)
Hereinafter, a method for repairing a gas leakage part of the gas pipe A (live pipe state) using the gas pipe sealing material of the present invention will be described with reference to the drawings. Examples of the repair method include the following four methods.

<First repair method>
1-3 has shown the 1st repair method which repairs the gas leak part 5 of gas piping A (live pipe state) using the sealing material 1 for gas piping of this invention.
FIG. 1 shows a gas pipe A in which a straight pipe 2 and an elbow 3 are screwed together at a threaded joint B. As shown in FIG. ) A gas leakage passage C is formed from 5 to the existing sealing material 4, and the gas leaks through the gas leakage passage C.
As shown in FIG. 3, the first repairing method is to apply the gas pipe sealing material 1 of the present invention to the screwed part 5 so as to be pressed with a brush, a spatula, a finger or the like, and cover the entire periphery thereof. The gas leak passage C is completely blocked. Next, the gas pipe sealing material 1 is left for a while until it is solidified. Lastly, a foaming liquid for gas leak detection is applied to the solidified gas pipe sealing material 1 and its peripheral portion to confirm that there is no gas leak, and the repair work is completed.

<Second repair method>
FIG. 4 shows a second repair method for repairing the gas leakage part 5 of the gas pipe A (live pipe state) using the gas pipe sealing material 1 of the present invention. The gas leak occurrence state is the same as in the first repair method described above.
In the second repair method, as shown in FIG. 4, the gas pipe sealing material 1 of the present invention is applied to the screwed portion 5 so as to be pressed with a brush, a spatula, a finger or the like, and the entire periphery thereof is covered. The gas leak passage C is completely blocked. Next, the tape 6 is wound around the entire circumference of the screwed portion 5 so as to further cover the applied gas pipe sealing material 1 and left for a while until the gas pipe sealing material 1 is solidified. Finally, a foaming liquid for gas leak detection is applied to the wound tape 6 and its peripheral portion, and it is confirmed that there is no gas leak, and the repair work is completed. According to the 2nd repair method, gas leak can be prevented more reliably than the said 1st repair method.

As shown in FIG. 5, in the first or second repair method described above, the clamping jig 8 can be used as needed while the gas pipe sealing material 1 is left for a while until it is solidified. .
The fastening jig 8 is a device for fastening the entire circumference of the applied gas pipe sealing material 1 or the wound tape 6 by the provided rubber belt 7 and holding it as it is. The applied unsolidified gas pipe sealing material 1 is more easily penetrated into the gas leakage passage C by the tightening force of the rubber belt 7.

<Third repair method>
A 3rd repair method implements the said 2nd repair method first, and is left to stand until the sealing material 1 for gas piping solidifies. Next, the wound tape 6 is peeled off, and the gas pipe sealing material 1 is further applied on the solidified gas pipe sealing material 1 (not shown). According to the 3rd repair method, the external appearance of a repair location (gas leak part) can be improved.

<Fourth repair method>
FIG. 6 shows a fourth repair method for repairing the gas leaking part 5 of the gas pipe A (live pipe state) using the gas pipe sealing material 1 of the present invention.
As shown in FIG. 6, the fourth repairing method is as follows. First, a temporary fixing material 9 (clay, putty, etc.) is applied to the entire periphery of the outer end portion of the screwing portion 5, and is hardened. Temporarily stop gas leakage. Next, the gas pipe sealing material 1 of the present invention is applied so as to cover the entire temporary fixing material 9 previously applied, and left for a while until solidified. Lastly, a foaming liquid for gas leak detection is applied to the solidified gas pipe sealing material 1 and its peripheral portion to confirm that there is no gas leak, and the repair work is completed.

<Other repair methods>
In the previous embodiment, as an example, the case where gas is flowing through the gas pipe and the gas pipe is filled with the gas is repaired in a live pipe state, but the gas in the gas pipe is repaired. (1) When repairing a place where the gas tightness of the pipe is impaired in the active pipe state in which the gas pipe is filled with gas, or (2) the gas in the gas pipe Of course, it may be repaired in the extracted state.

Hereinafter, the present invention will be further described by showing experimental results, but the present invention is not limited to these examples.
Various gas pipe sealing materials (Examples 1 to 10 and Comparative Examples 1 to 3) having compositions as shown in Table 1 below were produced, and a gas leak test was performed. In the production method, various components shown in Table 1 (resin, thickener, additive) were added to a kneader and kneaded, and after confirming a predetermined viscosity and elongation, the components were taken out.

The resin used in Examples 1 to 10 and Comparative Examples 1 to 3 is an acrylic emulsion resin or an acrylic silicone emulsion resin. Specifically, the acrylic emulsion resin used in Examples 1 to 3 is Polydurex B-3350 (manufactured by Asahi Kasei Chemicals Corporation), and the acrylic used in Examples 4 to 10 and Comparative Example 1 The silicone emulsion resin is Cymac US-224 (manufactured by Toagosei Co., Ltd.), and the acrylic silicone emulsion resin used in Comparative Examples 2 and 3 is Cymac US-214 (manufactured by Toagosei Co., Ltd.).
The thickener A is inorganic silica, the thickener B is a urethane-modified polyether, and the thickener C is aluminum hydroxide. Specifically, the thickener A (inorganic silica type) is SN thickener 4050 (manufactured by San Nopco), and the thickener B (urethane modified polyether type) is also SN thickener 612 (manufactured by San Nopco). Similarly, the thickener C (aluminum hydroxide) is Hydrite H-10 (manufactured by Showa Denko KK).
The plasticizer is 2,2,4-trimethyl-1,3-pentanediol monoisobutyrate (EN-250 (manufactured by Nippon Emulsifier)), and the aluminum paste is aqueous aluminum paste 930W (Showa Aluminum). Powder Co., Ltd.).

(Viscosity measurement method)
500 g of each of the gas pipe sealing materials (Examples 1 to 10, Comparative Examples 1 to 3) was kept at 20 ° C., and the viscosity was measured using a BF viscometer (using rotor number 7).

(Elongation measurement method)
The above-mentioned various sealing materials for gas piping (Examples 1 to 10, Comparative Examples 1 to 3) were coated on a 30 cm square glass plate using an applicator so that the thickness was 3 mm, and 40 ° C. The test piece was cut out into a specified shape after being allowed to stand for 72 hours.
After leaving the test piece at 20 ° C. for 5 hours, the test piece was cut into a strip shape having a thickness of 3 mm, a width of 12 mm, and a length of 125 mm, the distance between the grips was 50 mm, and the pulling speed was 100 mm / min. It was measured.

(Gas leak test)
While passing the gas (approximately 0.981 KPa) through the gas pipe (diameter 25A), the gas pipe sealing materials described in Examples 1 to 6, Examples 9 to 10, and Comparative Examples 1 to 3 are gasses. Application was performed so as to cover the entire periphery of the leaky threaded joint (the width of the application portion was 2 cm centering on the gas leakage portion, and the thickness of the application portion was 3 mm). Gas leakage immediately after application and gas leakage after 24 hours were confirmed by wiping the foaming liquid.
In addition, a string-like putty (manufactured by ThreeBond Co., Ltd.) was wound around the threaded joint where gas leaked while passing gas (approximately 0.981 KPa) through the gas pipe (25 A diameter) to temporarily stop the gas leak. Thereafter, the gas pipe sealing material described in Example 7 was applied so as to cover the entire periphery of the screw joint portion (the width of the application portion was 2 cm centering on the gas leakage portion, and the application was performed). The thickness of the part is 3 mm). Gas leakage immediately after application and gas leakage after 24 hours were confirmed by wiping the foaming liquid.
Further, the gas pipe sealing material described in Example 8 is covered with the gas pipe sealing member described in Example 8 so as to cover the entire circumference of the threaded joint portion having gas leakage while flowing the gas (approximately 0.981 KPa) through the gas pipe (diameter 25A). After the coating, a sealing agent holding tape (manufactured by Osaka Gas Engineering Co., Ltd.) was wound around and left for 20 minutes, and then the sealing agent holding tape was removed. Gas leakage immediately after application and gas leakage after 24 hours were confirmed by wiping the foaming liquid.
As shown in Table 2 below, in Comparative Examples 1 to 3, gas leakage after repair was detected (particularly, in Comparative Example 3, the viscosity is too high so that the screw joint portion is sufficiently covered. The gas leak did not stop because it could not be applied to the surface). However, no gas leakage after repair (immediately after application and 24 hours later) was detected for the gas pipe sealing materials (Examples 1 to 10) of the present invention.

Perspective view of gas piping Partial cross-sectional side view explaining a repair method for gas leaks Partial cross-sectional side view explaining a repair method for gas leaks Partial cross-sectional side view explaining a repair method for gas leaks The perspective view explaining the repair method of a gas leak part Partial cross-sectional side view explaining a repair method for gas leaks

Explanation of symbols

1 Gas Pipe Sealing Material 2 Straight Pipe 3 Elbow 4 Existing Sealing Material 5 Threaded Part (Gas Leakage)
6 Tape 7 Rubber belt 8 Tightening jig 9 Temporary fixing material A Gas piping B Screw joint

Claims (3)

A gas pipe sealing material containing a resin,
A gas pipe sealing material, wherein the resin is a compound mainly composed of an aqueous emulsion resin, has a viscosity of 3000 mPa · s to 8000000 mPa · s, and has an elongation of 5% or more.   The aqueous emulsion resin is selected from the group consisting of an acrylic silicone emulsion resin, a fluorine emulsion resin, an acrylic emulsion resin, a styrene butadiene synthetic rubber latex resin, an epoxy ester emulsion resin, and an aqueous urethane resin. The sealing material for gas piping of description.   The gas pipe sealing material according to any one of claims 1 and 2, comprising at least one thickener selected from the group consisting of aluminum hydroxide, calcium carbonate, silicon dioxide, cellulose, and acrylic resin.

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