JP2010084848A - Pipe leakage repairing device - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a pipe leakage repairing device for quickly and easily repairing the leakage of gas without fire when gas leaks from a high pressure and large diameter pipe. <P>SOLUTION: The repairing device comprises a fixing means for fixing a device body to the outer periphery of a pipe, a hardened type FRP sheet for covering a leakage hole of the pipe, a pressure plate for pressing the FRP sheet along the outer periphery of the pipe, and a FRP sheet hardening means. <P>COPYRIGHT: (C)2010,JPO&INPIT

Description

  The present invention relates to a pipe leakage repair device, and in particular, when an internal fluid leaks from a pipe that cannot be easily stopped, such as a gas pipe, there is no need to stop the equipment and no use of fire. The present invention relates to a device that can effectively repair a leaked portion.

Conventionally, in order to repair leakage of pipes, a method of welding an iron plate or the like from the outside of the pipe, a method of inserting a flexible inner pipe into the pipe (for example, Patent Documents 1 and 2), and a method of replacing the pipe Etc. were common.
Japanese Patent No. 3413633 JP 2002-166224 A

However, when repairing a pipe that transfers flammable fluid (typically referred to below as gas), such as gas pipe or liquid fuel pipe, the gas cannot be replaced with non-flammable gas such as air in an emergency. Therefore, from the viewpoint of preventing the ignition of gas, repair means using fire such as welding cannot be used.
In addition, in the method of inserting a flexible inner tube into the piping or the method of replacing the piping, there is a problem that the gas supply must be temporarily stopped.

  For this reason, as a simple repair method without fire, simple repair using a resin putty, an FRP sheet or the like is widely implemented.

As described above, in an emergency leak repair in which fire cannot be used, conventionally, a treatment for closing the opening from the outer surface of the pipe using a hardening type repair material such as a resin putty or FRP has been performed.
When using a resin putty or FRP sheet, it is necessary to suppress gas ejection until the resin putty or FRP adheres and cures.
However, in the above method, it was impossible to repair gas leakage from a high-pressure and large-diameter pipe, regardless of the small diameter and small leak hole.

  The present invention advantageously solves the above problems, and even when gas leakage occurs from a high-pressure and large-diameter pipe, the gas leakage is repaired quickly and easily without using fire. The purpose is to propose a repair system for leaking pipes.

That is, the gist configuration of the present invention is as follows.
1. A fixing means for fixing the apparatus main body to the outer periphery of the pipe, a hardening type FRP sheet that covers the leakage hole of the pipe, a presser plate that presses the FRP sheet along the outer periphery of the pipe, and a hardening means for the FRP sheet. Piping leakage repair device characterized by having.

2. 2. The pipe leakage repair device according to claim 1, wherein a convex portion for pressing the FRP sheet against the leakage hole is provided on a lower surface of the pressing plate.

3. 3. The pipe leak repair device according to claim 1 or 2, further comprising a center rod for pressing the FRP sheet through the presser plate from above the leak hole.

4). 4. The pipe leakage repair device according to any one of the above items 1 to 3, wherein the FRP sheet is one or two of a photo-curing FRP sheet and a thermosetting FRP sheet.

5. 5. When the photo-curable FRP sheet is used as the FRP sheet, a transparent material is used as the presser plate and the center rod, and a light irradiation device using an LED as a light source is used as the curing means. Repair equipment for piping leaks.

6). The pipe leakage repair device according to any one of the above 1 to 5, wherein when the pipe is made of iron or steel, a permanent magnet, an electromagnet, or a combination thereof is used as the fixing means.

According to the present invention, even when gas leaks from a high-pressure and large-diameter pipe, gas leak can be repaired quickly and easily without using fire.
Moreover, since the repair apparatus of this invention is a handy type which can be operated with one hand, it can perform field construction very easily.

The present invention will be specifically described below.
1 and 2 show a preferred repair device according to the present invention in plan and front view.
In the figure, reference numeral 1 is a pipe, and an iron pipe is used in this example. Reference numeral 2 denotes a leak hole (corrosion hole) generated in the pipe 1. In addition, 3 is an FRP sheet, 4 is a pressing plate for the FRP sheet 3, 5 is a pressing means for the pressing plate 4, and 6 is a curing means for the FRP sheet 3. Reference numeral 8 denotes a fixing means for fixing the apparatus body 7 to the pipe 1, and in this example, a permanent magnet is used. Reference numeral 9 denotes a center rod for pressing the FRP sheet 3 from above the leakage hole 2.

Next, a procedure for actually performing repair using the repair device shown in FIGS.
(1) When repairing the corrosion hole 2, it is necessary to first cover the corrosion hole 2 and the periphery thereof with the FRP sheet 3, but at this time, position the FRP sheet 3 so that the substantially central portion is on the corrosion hole 2. After the alignment, the apparatus main body 7 is fixed to the pipe 1 by the fixing means 8.
(2) Next, the presser plate 4 with the FRP sheet 3 attached is attached to the lower part of the pressing means 5 with a magnet 10 in this example.
(3) Next, in this example, the holding plate 4 to which the FRP sheet 3 is bonded is brought into contact with the surface of the pipe 1 by using the tightening nut 12 with the compression spring 11 interposed.
(4) Further, the pressing plate 4 is pressed by the pressing means 5 until it follows the curved surface of the pipe 1, and the FRP sheet 3 is attached along the curved surface of the pipe 1. Note that it is advantageous to make the surface pressure uniform with respect to the pipe 1 when the pressing plate 4 is pressed.
(5) Next, the FRP sheet 3 is cured by the curing means 6 in a state where the FRP sheet 3 is pressed against the repair region of the pipe 1.
(6) When the FRP sheet 3 is completely cured, the fixing means 8 is released and the apparatus main body 7 is separated from the pipe 1.

  Thus, the repair of the pipe leakage by the repair device of the present invention is completed, and the ejection of gas from the corrosion hole 2 can be effectively prevented.

  In the present invention, as the presser plate 4 of the FRP sheet 3, a flat plate as shown in FIG. 3A is usually used. It is advantageous to provide such a convex part 4a. This is because, when the FRP sheet 3 is pressed against the outer surface of the pipe via the presser plate 4, the FRP sheet 3 can be effectively pressed against the leakage hole 2 by matching the protrusion 4 a with the corrosion hole 2. Because it becomes possible.

Further, from the viewpoint of pushing the FRP sheet 3 into the corrosion hole 2, it is more advantageous to use the center rod 9 described above as a pressurizing jig.
When this center rod 9 is used, in the step (3), the presser plate 4 to which the FRP sheet 3 is bonded is brought into contact with the surface of the pipe 1 and then the center rod 9 passes through the presser plate 4. By pressing the FRP sheet 3, the ejection of gas from the corrosion holes 2 is temporarily stopped, and then the entire pressing plate 4 is pressed by the pressing means 5 along the curved surface of the pipe 1.
Thus, even when the internal pressure of the pipe is high, the FRP sheet 3 can be more effectively pushed into the leakage hole 2 and the effect of preventing gas leakage from the corrosion hole 2 is improved.
In addition, as for such a center rod, it is desirable to make the front-end | tip pointed shape, and this can prevent the leakage of gas more effectively.
Moreover, there is no restriction | limiting in particular about the press means of this center rod, Even if it is a human power, what utilizes a spring, what utilizes a screw may be sufficient.

  In the present invention, as the FRP sheet covering the periphery around the corrosion holes, either a photocurable FRP sheet or a thermosetting FRP sheet can be used, but the photocurable FRP sheet is particularly advantageous. is there. This is because the photo-curing type FRP has a short curing time (several minutes to several tens of minutes), a small voltage (about 3 to 5 V), and can easily cope with explosion-proof with low power consumption.

Here, the photocuring and photocurable FRP sheet will be described as follows.
Changing from a liquid state to a solid state by the action of light energy is called “photocuring”, and a synthetic organic material that cures is called a photocurable resin. As the light for curing, ultraviolet rays are generally widely used. Recently, a visible light curable resin that cures in the visible light region has been developed.
When such a photocurable resin is used as an FRP sheet, glass fiber or organic fiber cloth or chopped strand mat is used as a reinforcing fiber, and this is applied to monopolymers and oligomers such as polyester resin, vinyl ester resin, and acrylic resin. It is impregnated with a photocurable resin blended with a polymerization initiator to form a B-stage (semi-rigid state), and a coating film is pasted on both sides to form a sheet-like material.
In this manner, a photocurable FRP sheet such as an ultraviolet curable FRP sheet or a visible light curable FRP sheet can be produced. These are sheets that are cured by irradiating light, and have a tensile strength, bending strength, and adhesive strength sufficient to withstand the jet gas pressure after curing.

As a curing means for curing such a photocurable FRP sheet, it is preferable to use an ultraviolet LED or a visible light LED having a wavelength of 380 nm to 780 nm as a light source. The LED to be used is an LED module having a relatively large output, and a plurality of LEDs are stacked and attached on a flat surface or a curved surface, and the light curable FRP sheet is disposed at an appropriate distance that can secure irradiation energy necessary for curing. Thereby, a wide irradiation area can be secured and the curing time can be shortened.
Since high-power LEDs generate a large amount of heat, it is advantageous to dispose a heat radiating plate such as an aluminum plate behind the LED light source.

On the other hand, as the thermosetting FRP sheet, a thermosetting prepreg sheet blended with a thermal polymerization initiator is suitable, and as a means for curing the thermosetting FRP sheet, a C fiber FRP sheet heater or the like is suitable. It is.
In addition, as a FRP sheet | seat of this invention, not only the above-mentioned photocurable type FRP sheet and thermosetting type FRP sheet are used independently, but these can also be used together.
At that time, only the curing means of the photocurable FRP sheet is sufficient as the curing means. This is because the photocurable FRP sheet generates heat when it is cured, and the heat curable FRP sheet can be simultaneously cured by the heat.

  Moreover, when using a photocurable FRP sheet as an FRP sheet, it is necessary to make it transparent as a pressing plate which hold | maintains this sheet | seat in order to permeate | transmit LED. A transparent plastic plate is particularly suitable considering flexibility. As such a transparent plastic plate, a transparent acrylic plate, a transparent vinyl chloride plate, a transparent polycarbonate plate, and a transparent PET plate are advantageously adapted.

Similarly, the center rod that presses the photocurable FRP sheet from above the leak hole is also preferably made of a transparent resin or glass in order to transmit the LED.
Further, the center rod can press the FRP sheet more effectively by changing the rotational motion of the threaded rod or the rotary shaft handle installed in the lateral direction to the linear motion of the vertical rod. .

Various means can be applied as means for fixing the apparatus main body depending on the material of the pipe, but when the pipe is made of iron or steel, the fixing means can be a magnetic force such as a permanent magnet or an electromagnet. It is advantageous to use
When using this magnetic force, either a permanent magnet or an electromagnet may be used alone, or both may be used in combination.
As the permanent magnet, a strong magnet such as a neodymium magnet or a ferrite magnet is advantageous. In the case of a permanent magnet, it is advantageous to use a magnet capable of turning on and off the magnetic force. It is preferable that such a magnet has a joint structure so that it can be attached along the outer curvature of the pipe.
The material of the apparatus main body is not particularly limited, but considering that it is used as a handy type, lightweight materials such as aluminum alloy, aluminum, CFRP, and FRP are advantageously suitable.

  Further, there is no particular limitation on the pressing means of the presser plate, but it is preferable to use a plastic threaded rod, arrange these around the presser plate, and screw the sheet presser plate against the pipe surface by screwing. It is.

In the present invention, it is advantageous to provide a handle as indicated by reference numeral 13 in FIGS.
That is, since the repair device of the present invention is an extremely compact handy type, it can be performed on site very easily by a handle operation with one hand.

Prior to attaching the FRP sheet, at least the sheet attachment area of the piping should be polished with sandpaper, a file, a grindstone, etc. to remove rust, dirt, floated paint, deposits, protrusions, etc. It is advantageous.
Furthermore, after the above polishing, it is preferable to apply a primer such as a permeable epoxy resin, a urethane resin, an acrylic resin, a polyester resin, or a vinyl ester resin to improve the adhesion.

It is a top view of the repair apparatus according to this invention. It is a front view of the repair apparatus according to this invention. It is a front view which shows the suitable press plate used for this invention.

Explanation of symbols

1 Iron piping 2 Leakage hole (corrosion hole)
3 FRP sheet 4 Presser plate 4a Convex part 5 Pressing means 6 Curing means 7 Apparatus body 8 Fixing means 9 Center rod
10 Magnet
11 Compression spring
12 Tightening nut
13 Handle

Claims (6)

  A fixing means for fixing the apparatus main body to the outer periphery of the pipe, a curing type FRP sheet that covers the leakage hole of the pipe, a pressing plate that presses the FRP sheet along the outer periphery of the pipe, and a hardening means for the FRP sheet. Piping leakage repair device characterized by having.   The pipe leak repair device according to claim 1, further comprising a convex portion for pressing the FRP sheet against the leak hole on a lower surface of the presser plate.   The pipe leak repair device according to claim 1, further comprising a center rod for pressing the FRP sheet from above the leak hole through the presser plate.   The pipe leakage repair device according to any one of claims 1 to 3, wherein the FRP sheet is one or a combination of a photo-curable FRP sheet and a thermosetting FRP sheet.   When using a photocurable FRP sheet as the FRP sheet, a transparent presser plate and center rod are used, and a light irradiation device using an LED as a light source is used as a curing means. Repair equipment for piping leakage as described.   6. The pipe leakage repair device according to claim 1, wherein when the pipe is made of iron or steel, a permanent magnet, an electromagnet, or a combination thereof is used as the fixing means. .