JP2006234684A - Defect detection method of waterproof sheet - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a defective spot detection method of a waterproof sheet capable of detecting a defective spot of an impervious sheet visually, even at a site having large noise, and detecting defective spots without laying double waterproof sheets. <P>SOLUTION: In the defective spot detection method of the waterproof sheet 1 in a waterproof structure, fixed on the bed 1 by using a plate 2 by a mechanical fixing method, a ventilation layer 8 is formed between the waterproof sheet 4 and the bed 1 by sticking 7 a part of the waterproof sheet 4 to the substrate 1, and the surface temperature of the waterproof sheet 1 is observed by thermography system 13, in a state where cold air is made to flow forcibly into the inside of the ventilation layer 8, and the defects of the waterproof sheet are detected, by grasping a temperature change of the waterproof sheet 1 caused by the infiltration of the outside air from the defective spot K into the ventilation layer 8. <P>COPYRIGHT: (C)2006,JPO&NCIPI

Description

  The present invention relates to a method for detecting a defective portion of a waterproof sheet placed on a rooftop of a building, etc., in a waterproof structure in which a waterproof sheet is fixed to a base by bonding the waterproof sheet to a plate fixed to the base. The present invention relates to a detection method that can easily detect a defective portion in a portion.

  In order to prevent water leakage, waterproof sheets are laid on the roof of buildings, the grounds of parking lots, and the walls of underground structures such as tunnels, in order to prevent water leakage. It has been broken. In the sheet waterproofing, the entire structure is covered as a single large sheet that does not allow water to pass through by laying a plurality of waterproof sheets made of elastomer on the base or wall surface and joining them together.

  However, when there is a bonding failure at the joint between the waterproof sheets, or there is a damaged portion in the waterproof sheet itself, water leakage occurs and water penetrates into the base or the wall surface side. Therefore, it is necessary to identify whether there is a defective part such as the waterproof sheet itself being damaged or poorly joined at the joint, and if so, where it is, and repairing it if necessary.

  For such a problem of water leakage, for example, in an industrial waste disposal site, as disclosed in Patent Document 1, double a water shielding sheet and blow smoke into a section between an upper sheet and a lower sheet. If there is a defective part, smoke rises from the defective part. By doing so, it is possible to identify the defective part. In Patent Document 2, the space between the upper and lower impermeable sheets is vacuumed. As a result, if a defective portion exists, air flows into the compartment from the outside through the defective portion, and a method for detecting the defective portion by detecting the inflow of air at that time as a sound is disclosed. However, in the case of a waterproof sheet that is usually laid on the roof of a building, there is no known such a double laid waterproof sheet.

  On the other hand, there is a mechanical fixing method as a structure for laying a waterproof sheet on a base such as a rooftop. The mechanical fixing method is also called a floating sticking method, and is a method in which the waterproof sheet is locally fixed to the ground by an anchor member such as a bolt, a screw or a nail without using an adhesive.

  In this mechanical fixing method, as described in Patent Document 3, a fixing plate is fixed to a base with an anchor member such as a screw, and a waterproof sheet is adhered to the fixing plate. There is a method in which a thermoplastic resin film or the like is coated on the surface of the main body, the plate main body is heated by electromagnetic induction heating, and the resin film is melted and thermally fused to the waterproof sheet. According to this method, the waterproof sheet can be easily fixed to the base by thermal fusion, and the waterproof sheet can be fixed to the base without making a through hole in the waterproof sheet, and the mechanical type has high reliability against water leakage. It can be a fixed construction method.

Japanese Patent Laid-Open No. 11-10107 JP-A-6-294699 Japanese Patent Laid-Open No. 9-158408

  The method disclosed in Patent Document 1 is a method of filling smoke between the upper layer sheet and the lower layer sheet and confirming that the smoke is ejected from the defective portion, such as a rooftop of a building where the waterproof sheet is not doubled. Is not applicable. Further, the method disclosed in Patent Document 2 is difficult to detect a defective part even in a site where noise is large.

  Even in the mechanical fixing method as disclosed in Patent Document 3, one waterproof sheet is laid on the ground, and the technique disclosed in Patent Document 1 and Patent Document 2 is also applied. Can not.

  Therefore, in the present invention, it is possible to detect a defective portion of the waterproof sheet visually even in a noisy site, and to detect a defective portion of the waterproof sheet that can detect the defective portion without laying a double waterproof sheet. It aims to provide a method.

  In order to achieve the above object, in claim 1 of the present invention, a waterproof sheet in a waterproof structure for fixing a waterproof sheet to a base by bonding a waterproof sheet laid on the base to a plate fixed to the base In this defect location detection method, a waterproof layer is formed between the waterproof sheet and the base by bringing a part of the waterproof sheet into close contact with the base, and the waterproof is performed in a state where cold air is forced to flow into the vent layer. The surface temperature of the sheet is observed by thermography, and the defect of the waterproof sheet is detected by detecting the temperature change of the waterproof sheet due to the outside air entering the water-permeable layer from the defective part.

  According to a second aspect of the present invention, there is provided a method for detecting a defective portion of a waterproof sheet according to the first aspect, characterized in that the inflow of cold air into the ventilation layer is sucked and caused to flow by decompressing the inside of the ventilation layer.

  Claim 3 is the method for detecting a defective portion of a waterproof sheet according to claim 1 or 2, wherein the portion to be detected by the defect is a joint portion of the waterproof sheet.

  According to claim 1, it is possible to form a sealed air-permeable layer between the waterproof sheet and the base by bringing part of the waterproof sheet into close contact with the base. The outside air flows into the ventilation layer from the defective part due to the cold air flow, and as a result, the temperature of the upper waterproof sheet changes at the defective part. Can be detected.

  In claim 2, since the inside of the ventilation layer is depressurized, more outside air can be taken into the ventilation layer when there is a defect in the waterproof sheet, and even if it is a small defect, the defective part can be easily identified. It can be carried out.

  According to the third aspect, since the defect is particularly likely to occur in the joint portion, the effect of the present defect detection method is remarkably obtained.

  Hereinafter, specific embodiments of the present invention will be described with reference to the accompanying drawings. FIG. 1 is a cross-sectional view showing a waterproof sheet fixed to a base by a mechanical fixing method. The waterproof sheet is fixed to the base by fixing the waterproof sheet to a plate fixed to the base by hot air or electromagnetic induction heating or by using an adhesive. It is performed in the way.

A fixing plate 2 is fixedly arranged at a predetermined interval by an anchor member 3 on a base 1 made of concrete or the like on which a waterproof sheet is to be laid. The number of fixing plates 2 to be arranged is not particularly determined depending on the state of the base 1, but is sufficiently fixed to the base 1 so that the waterproof sheet 4 does not rise due to the influence of wind or the like. It is necessary to arrange them uniformly in the range of about 1 to 4 pieces / m ² .

  After the fixing plate 2 is disposed, the waterproof sheet 4 is then disposed so as to cover it. The waterproof sheet 4 is formed by jointing sheets having a width of 1 to 2 m to form a waterproof sheet 4 having a field size, and is disposed on the entire surface. The waterproof sheet 4 is usually disposed on the entire surface, but it is not always necessary to dispose the waterproof sheet 4 on the entire surface, and may be partially disposed.

  The fixing plate 2 has at least the upper surface on the waterproof sheet 4 side covered with a covering material 6 made of a thermoplastic resin. For example, the upper and lower surfaces are covered with a thermoplastic covering material 6 as shown in FIG. A hole is formed in the waterproof sheet 4 by heating the metal plate body 5 from above the waterproof sheet 4 with the electromagnetic induction heater D and melting the covering material 6 on the surface at the portion overlapping the waterproof sheet 4. Without fixing, the fixing plate 2 is fixed by fusion.

  In this way, in the waterproof structure in which the waterproof sheet 4 is partially fixed to the base 1 by the mechanical fixing method, in the waterproof spot defect detection method of the present invention, first, the periphery of the waterproof sheet 4 is used as the base, the adhesive 7 or the like. As a result, the air-permeable layer 8 sealed between the waterproof sheet 4 and the base is formed as shown in FIG.

  Two holes 9, 10 are provided in the formed ventilation layer 8, a device 11 for generating cold air is connected to one hole 9, and a vacuum pump 12 or the like is connected to the other hole 10. The inside of the ventilation layer 8 is depressurized by the vacuum pump 12 so that cold air flows from the holes 9 (in the direction of the arrow in the figure), the inside of the ventilation layer 8 is filled with the cold air, and the waterproof sheet 4 is cooled.

  Further, when the waterproof sheet 4 has a defective portion K such as breakage, the inside of the ventilation layer 8 is depressurized, so that outside air flows from the defective portion K. Since the outside air is hotter than the cold air filling the inside of the ventilation layer 8, a region having a higher temperature than the other portions is formed in the vicinity of the defective portion K where the outside air flows. Accordingly, the surface temperature of the waterproof sheet 4 also becomes higher than that of other parts near the defect portion K. As a result, when the surface of the waterproof sheet 4 is observed from the outside using the thermography 13, the surface temperature of the waterproof sheet 4 becomes higher than that of the other parts. It is possible to identify a defective part.

  For example, the defective portion K of the waterproof sheet can be detected by such a method. When the base on which the waterproof sheet 4 is laid is wide, the portion of the waterproof sheet 4 that adheres to the base 1 may be appropriately increased to divide the ventilation layer 8 into a plurality of compartments, and the compartments may be sealed and decompressed. Then, in the decompressed section, the inside of the ventilation layer 8 is decompressed by the vacuum pump 12 and cool air is introduced, and the temperature change of the waterproof sheet 4 is observed by the thermography 13. When one section is finished, a defective portion is detected in the next section and the same operation is repeated.

  In the above, the method of depressurizing the inside of the ventilation layer 8 with the vacuum pump 12 has been described. By depressurizing the inside of the ventilation layer 8, the inflow of cold air is performed more efficiently, and the outside air easily flows in the defect portion K, and the defective portion such as a defect in the through hole or the joint portion 14 that is a defect of the waterproof sheet 4. Even if it is small and there is little leakage, there is an advantage that it can be detected effectively.

  Moreover, even if the inside of the ventilation layer 8 is not decompressed, the inside of the ventilation layer 8 can be filled with the cold by press-fitting cold air on the cold air generator 11 side, and the temperature of the waterproof sheet 1 can be lowered. And in the state where the cold air press-fitted by the cold air generator from one hole 10 fills the inside of the ventilation layer 8 and the excess cold air is discharged from the other hole 9 side, the inside of the ventilation layer 8 is flowing cold air, Under such circumstances, when the waterproof sheet 4 itself has a hole, or there is a defect in the joint portion 14, the outside air is also sucked into the ventilation layer 8 from the defective portion K along the flow of cold air. Then, it is the same after that, because the temperature of the waterproof sheet 4 near the defective part K rises due to the outside air sucked from the defective part K, the temperature of the waterproof sheet 4 is observed with the thermography 13 and the defect is caused by the temperature difference with the surroundings. The location K can be specified.

  The thermography 13 includes, for example, a sensor that detects infrared rays from an inspection object, a portion that processes the sensor with an electrical signal, a portion that stores data, a portion that displays detection results, and the like. The temperature distribution on the surface of the waterproof sheet can be detected by pointing a camera having a sensor.

  According to the method of the present invention, the presence or absence of a defective portion and the location when there is a defective portion can be easily identified visually, so that even a noisy site does not cause a detection failure, and a reliable inspection is performed. be able to.

  The material used for the waterproof sheet 4 is ethylene propylene diene monomer (EPDM), isoprene-isobutylene copolymer (IIR), HDPE (high density polyethylene), LDPE (low density polyethylene, PP (polypropylene), TPO (thermo). EPDM having excellent rubber elasticity and good rubber elasticity is preferable.

  EPDM (ethylene propylene rubber), HDPE (high density polyethylene), LDPE (low density polyethylene, PP (polypropylene), TPO (thermoplastic olefin), etc.) are used as the material of the waterproof sheet 4. The thickness is 0.8- If the thickness is less than 0.8 mm, the waterproof sheet is likely to be damaged due to insufficient strength, and if it exceeds 3.0 mm, the level difference at the joint becomes large, which is not preferable in terms of watertightness.

  By adopting the configuration as described above, it is possible to detect a defective part of the waterproof sheet visually, and to detect a defective part of the waterproof sheet that can detect the defective part without laying the waterproof sheet in a double layer. A method can be provided.

  When laying and arranging a waterproof sheet on the rooftop of a building by mechanical fixing method, check whether there is a defect such as a pinhole in the joint between the waterproof sheets or the waterproof sheet itself. In some cases, it can be used to identify the location.

It is sectional drawing when the fixing method of a waterproof sheet was implemented. It is sectional drawing which shows an example of a fixed plate. It is a cross-sectional schematic diagram of a place where a ventilation layer is formed between a waterproof sheet and a base.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 Groundwork 2 Fixed plate 3 Anchor member 4 Waterproof sheet 5 Plate body 6 Cover material 7 Adhesive 8 Ventilation layer 9 Hole 10 Hole 11 Cold air generator 12 Vacuum pump 13 Thermography 14 Joint D Electromagnetic induction heating air K Defect location

Claims (3)

  By adhering a waterproof sheet laid on the ground to a plate that is fixed to the base, in the waterproof sheet detection method for a waterproof sheet that fixes the waterproof sheet to the base, a part of the waterproof sheet is brought into close contact with the base By forming a ventilation layer between the waterproof sheet and the base, and observing the surface temperature of the waterproof sheet by thermography in a state where the cold air is forced to flow into the ventilation layer, the outside air flows from the defective part to the water-permeable layer A method for detecting a defect portion of a waterproof sheet, wherein a defect of the waterproof sheet is detected by detecting a temperature change of the waterproof sheet caused by entering the inside.   The method for detecting a defective portion of a waterproof sheet according to claim 1, wherein the inflow of cold air into the ventilation layer is sucked and introduced by reducing the pressure in the ventilation layer. The method of detecting a defective portion of a waterproof sheet according to claim 1 or 2, wherein the portion to be subjected to defect detection is a joint portion of the waterproof sheet.

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