JPH0932214A - Asphalt waterpoof sheet and asphalt waterproofing construction method - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a lightweight structure and increase tensile strength by making a base material of the specified form of a laminated base material of nonwoven fabric and a mesh, regarding an asphalt waterproof sheet made of a base material impregnated and covered with an asphalt waterproof material. SOLUTION: Regarding a base material, a mesh 1b of polyester fabric is made into a sheet form on the nonwoven fabric 1a made of the mixed fabric of polyester fabric and vinylon fabric, thereby forming a laminated base material 1. Thereafter, the laminated base material 1 is impregnated and covered with rubber asphalt, thereby forming an asphalt waterproof sheet used as a roof floor roofing material for a building. In this case, the mass of the laminated material 1 per unit area is taken at a value between 100 and 200g/m<2> , and the amount of the asphalt waterproof material impregnated into and covering the laminated material 1 is taken at a value between 2,800 and 3,500g/m<2> . Tensile strength is taken at a value between 20 and 30kgf/cm, and dimensional stability at a value between 0 and 0.5%. According to this construction, a waterproof sheet suitable for being fused with a torch burner can be provided.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an asphalt waterproof sheet suitable for waterproofing rooftops of buildings, and also for waterproofing balconies, basements, etc. and an asphalt waterproofing method.

[0002]

2. Description of the Related Art Conventionally, an object of the present invention is to provide a waterproof sheet on the upper surface of a concrete slab base on a rooftop of a building or to repair an old waterproof sheet which has already been waterproofed on the concrete base surface. As
Without peeling off the old waterproof sheet, use this as a base,
Waterproofing is performed by applying a new waterproof sheet on the top surface. As its waterproof construction, the work efficiency of fixing nails and staples to the base through washers without sticking the entire surface of the waterproof sheet to the base, and adhering only the overlapping portions of the adjacent waterproof sheets. A good waterproof construction method is known. In this case, when a synthetic resin waterproof sheet such as a vinyl chloride resin sheet is used as the waterproof sheet, the sheet shrinks and it is difficult to bond the synthetic resin sheet and the washer, which requires a high degree of skill. In particular, in the case of vinyl chloride resin sheets, the plasticizer dissipates over time, so the sheets harden and become brittle, and at the same time, the entire sheet shrinks, so that the adhesive part is easily peeled off, and the shrinkage causes such things as nails Since the through hole is enlarged, there is a risk of leaking water from the enlarged portion. In addition, when this vinyl chloride resin sheet is applied to the old asphalt waterproofing sheet that was previously applied to the concrete foundation without being peeled off, it can be piled up on top of it without peeling it off. In order to prevent this, it is necessary to interpose an insulating sheet such as a polyethylene foam sheet, which causes a disadvantage that the construction work increases in time and labor and the construction cost also increases. In order to eliminate such inconvenience of the synthetic resin waterproof sheet, when a conventional asphalt waterproof sheet is used, non-woven fabric is generally used as the base material, and therefore there are the following problems. That is, when the weight per unit area of the nonwoven fabric, that is, the mass per unit area is reduced, when the asphalt is impregnated and coated to form an asphalt waterproof sheet, the asphalt coating is thick enough to be melted by the torch burner. However, since its tensile strength is significantly reduced, if this is fixed to the concrete base through a washer with a locking pin for waterproof construction, the strong wind will easily damage the asphalt waterproof sheet. It was disliked, and it was found that a washer having a remarkably long length was required to prevent this. After various examinations, the tensile strength is at least 20K.
Since gf / cm is sufficient, the tensile strength is 20 kg.
To achieve f / cm or more, the basis weight of the nonwoven fabric is 300 g
/ M ² or more, and when it is impregnated with asphalt and coated, if the required amount of coating is coated, the thickness is too thick and the weight is too heavy. Since it causes troubles, etc., usually the amount of coating is reduced,
It becomes unsuitable for melting and sticking sheets to each other by a torch burner, which causes a problem that the asphalt heated and melted must be used in the field. As described above, it was found that an asphalt waterproof sheet having excellent tensile strength against strong wind cannot be obtained as long as the base material is a nonwoven fabric. Therefore, it is also a waterproof construction method in which an asphalt waterproof sheet having the above-mentioned non-woven fabric as a base material is used and the locking pin is driven into the base through the pin hole of the washer and fixed, so that particularly strong wind Fixtures with constant tensile strength have never been taken into account. In view of the above-mentioned problems of the conventional technology, the problem is solved, and the development of an asphalt waterproof sheet having high tensile strength, light weight, thinness, and easy handling, and this type of asphalt waterproofing method by a fixing means having high damage resistance due to strong wind. Development is desired.

[0003]

[Means for Solving the Problems] Means for solving the above-mentioned problems of the present invention is to provide an asphalt waterproof sheet obtained by impregnating a base material with an asphalt waterproof material and coating the base material with a nonwoven fabric and a mesh. An asphalt waterproof sheet characterized by comprising a laminated base material with. In the above-mentioned asphalt waterproof sheet of the present invention, in particular, the mass per unit area of the laminate substrate is 100 to 200.
g / m ² , the amount of asphalt-based waterproof material to be impregnated and coated on the laminate base material is 2800 to 3500 g / m ² ,
Tensile strength specified in JIS A6013 is 20-30K
The gf / cm and dimensional stability are preferably 0 to 0.5%.

Further, there is provided an asphalt waterproofing method for forming a stable and reliable waterproofing surface having a large tensile strength and a base surface by using the above-mentioned asphalt waterproofing sheet of the present invention. Or a washer having a width smaller than the overlapping margin is applied to the upper surface of the overlapping margin on one side of the asphalt waterproof sheet of the present invention laid on the underlying base consisting of After arranging at a predetermined interval along the overlap margin, a fixing means for driving and fixing to the base of the concrete slab with a pin through which at least one locking pin hole is provided in the washer, The back side of the adjacent asphalt tarpaulin on the other side is melted by using a torch burner, and is pressed and adhered to the upper surface of the fixed back side. It is characterized in. In the above-mentioned asphalt waterproofing method of the present invention, in particular, there is provided an asphalt waterproofing method which has a peeling resistance against strong wind and brings stable and robust waterproofing, wherein the washer has a thickness of 1
It is made of ribbed plate of less than mm and has a circumference of 225 to 225 mm.
It is characterized by using ² to 5 locking pins having a pullout strength of 300 kg / f and having a pulling strength of 300 mm / m ² . In this case, further, heat insulating plates may be laid on the entire surface of the base in a state of abutting each other to obtain heat insulating and waterproofing work. In addition, the corner portions of the four heat insulating plates are butted against each other, one washer is straddled over the cross-shaped corner portion, and a pin hole for locking the washer located at the center of the cross-shaped joint is formed. By fixing the inserted pins into the concrete foundation by fixing, the four heat insulating plates can be fixed with one washer and pins, and the fixing work can be performed easily and quickly.

[0005]

BEST MODE FOR CARRYING OUT THE INVENTION Next, an embodiment of the asphalt waterproof sheet of the present invention and its waterproof construction will be described with reference to the accompanying drawings. In the drawings, reference numeral 1 shows a laminate base material which is a feature of the asphalt waterproof sheet A of the present invention shown in FIG.
The laminated base material 1 is formed by laminating a nonwoven fabric 1a and a mesh 1b and adhering them integrally. The non-woven fabric is made of synthetic fiber of any known material such as polyester fiber, glass fiber or a mixed fiber thereof, which is wet or dry paper-made. The mesh is made by spun (yarn) filament yarn made of synthetic fiber, glass fiber or a mixed fiber thereof in a vertical and horizontal direction to form a lattice, and the intersections thereof are bonded with an adhesive, or a cloth woven like a gauze cloth. However, in any case, it is necessary that the mesh has a degree of supplementing the strength of the laminate base material and does not impair dimensional stability, and it is preferable that the mesh has a coarseness of 1 to 5 pieces / cm. . In this case, the thickness of the thread is preferably 250 denier to 1000 denier and is generally common. The laminated base material is produced by stacking a non-woven fabric and a mesh and binding them to each other with an adhesive, or as shown in the figure, when the non-woven fabric is wet- or dry-processed, the mesh is produced. , Either is fine. FIG.
The mesh 1b shown in the figure is a kind E2200 of the product name "Clenet" made of Kurashiki Spinning Co., Ltd. made of polyester fibers manufactured by Kurashiki Spinning Co., Ltd. Count 1
000 denier yarn 2 x 2 threads / cm) mesh 1b
Of the non-woven fabric 1a during wet-making, and the mass per unit area of the laminated base material 1 is 177 g / m ² , and the tensile strength is 22 Kgf / c.
m. Of course, other commercially available crenets can be used. For example, polyester E3950
(Between 3 / cm) and E4523 (4.5 / cm)
), Vinylon VF3250 (3 x 3.5 pieces / between),
Various coarse meshes such as glass GW1100 (between 1 / cm) can be used.

FIG. 2 is a plan view of the present invention, which is mainly used as a roofing roof of a building manufactured by impregnating and coating an asphalt-type waterproof material, for example, rubber asphalt, on the laminated base material 1 shown in FIG. 1 by a conventional method. 3 shows an asphalt waterproof sheet A. In the illustrated example, the thickness of the asphalt waterproof sheet is 4 mm, of which the thickness of the laminated base material 1 is 0.6 mm, the thickness of each coated asphalt 2 on both surfaces thereof is 1.7 mm, and the tensile strength is close to 30 kgf / cm. Met. As an asphalt waterproof material, JIS K
2207 (petroleum asphalt) is a blown asphalt with a penetration of 10 to 30 specified, 3 and 4 types of asphalt for waterproofing work, or those added with a filler such as talc, if necessary. In order to facilitate thickening of the coating amount, the needle penetration is 60 to 10
The straight asphalt of No. 0 is mixed with a block copolymer such as styrene / butadiene / styrene rubber or styrene / isoprene / styrene rubber in an amount of 5 to 20% by weight with respect to the asphalt. still,
Although not shown, in the asphalt waterproof sheet of the present invention shown in FIG. 2, fine mineral particles are usually sprinkled on one surface of the coated asphalt 2 or 2, or a synthetic resin film is attached. However, it goes without saying that the other side is manufactured as a sandy asphalt waterproof sheet with sand scattered. In this case, what is used as an asphalt waterproof sheet that is fixed to the concrete foundation by driving a locking pin through a washer should be wider than the washer along one lengthwise side edge and one widthwise side edge. , For example,
When the width of the washer is 40 mm, the sand having a width of 150 mm is not scattered, but the fine powder of mineral matter is dispersed.

Thus, the laminated base material of the present invention has
Not only has dimensional stability of 5% or less, but also has tensile strength even if the mass per unit area is small. FIG.
Tensile strength when the mass per unit area (g / m ² ) of the non-woven fabric is changed, and the tensile strength specified in JIS A 6013 is compared with each of the non-woven fabrics whose mass per unit area is changed. Show. As is clear from this comparative graph, the laminated base material 1 of the present invention is significantly improved in tensile strength at the same mass per unit area as compared to the conventional base material of the nonwoven fabric alone. Further, in the same figure, the tensile strength of the asphalt waterproof sheet of the present invention produced by impregnating and coating asphalt on these laminated substrates and the conventional asphalt produced by impregnating and coating asphalt on the substrate of these non-woven fabrics alone. Although the tensile strength of the waterproof sheet was shown, naturally, the asphalt waterproof sheet of the present invention has a smaller mass per unit area of the nonwoven fabric 1a, that is, a smaller basis weight than the conventional asphalt waterproof sheet. It can be seen that, despite being lightweight and thin, it has remarkably high tensile strength. Moreover, as is clear from FIG. 3 shows, when manufacturing the asphalt waterproof sheet using a large laminated base material 1 of such tensile strength, slightly, the basis weight of at least ^{100g / m 2 (g / m} 2)
Thus, it can be seen that an asphalt waterproof sheet having a high tensile strength of 24 Kgf / cm can be obtained.

Another object of the present invention is that it has a large tensile strength so that it is not peeled off even when it is exposed to a strong wind such as a typhoon, it is relatively thin and easy to handle, and it is also coated with asphalt by a torch burner. The object of the present invention is to provide an asphalt waterproof sheet suitable for melting, and as a result of many tests, the asphalt waterproof sheet for achieving the purpose has a mass per unit area of the laminate substrate of 10
0-200 g / m ² , the amount of asphalt waterproof adhesive to be impregnated and coated on the laminate base material is 2800-3500 g
/ M ² , the tensile strength specified in JIS A 6013 is 20 to 30 Kgf / cm, and the dimensional stability is 0 to 0.5.
%.

The reason for setting the mass per unit area of the laminated base material to 100 to 200 g / m ² is 100 g / m.
^When it is less than ² , the tensile strength of the waterproof sheet is insufficient, and the rigidity of the sheet becomes weak, so that "wrinkles" tend to occur and workability tends to deteriorate, while when it exceeds 200 g / m ² , the impregnated asphalt amount is increased. Of 500 g / m ² , the amount of asphalt to be coated is too small, less than 2300 / m ^2, and the melting amount of the asphalt to be coated by the torch burner is small, which hinders the watertight joining of the overlapping portions of the waterproof sheets. Because there is a risk of coming. If the amount of coated asphalt is about 3000 / m ² , it will not hinder the fusion bonding of the roofing by the torch burner, but especially when the temperature is low, the waterproof sheet becomes too stiff and long. In this case, the handling property is deteriorated such that the film cannot be easily wound into a roll.

The amount of the asphalt-based waterproof adhesive to be impregnated and coated on the laminated base material is 2800 to 3500 g.
/ Reason for m ^2, in less than 2800 g / m ^2, when joined at the overlap margin portion of the upper and lower asphalt waterproof sheet between its lower surface to melt the back surface of the coating covering the asphalt waterproof sheet overlapping from top torch burner When the pressure-sensitive adhesive sheet is pressed and applied to the waterproof sheet, the amount required to obtain good water-tightness is insufficient. On the other hand, when it exceeds 3500 g / m ² , one side of the laminate base material is 1.7 mm. As described above, it is too economical to melt and stick with the torch burner, which is not economical. Further, it is not preferable because the product becomes too heavy and the transportation, the construction work, and other handling become poor.

The tensile strength is 20 Kgf / cm to 30.
In the case of Kgf / cm, if it is less than 20 Kgf / cm, a long plate having a remarkably long length must be used as a washer used for fixing the waterproof sheet to the base.
As a result, the edge of the long washer becomes weak against strong wind, and it is lifted due to peeling stress, or in extreme cases, both edges are bent upward, resulting in the locking pin coming off. Will end up. In other words, tensile strength 20K
When it is set to gf / cm or more, a short washer ensures stable fixation against strong winds, while when it exceeds 30 kgf / cm, the basis weight exceeds 200 g / m ² ,
This is because the amount of coated asphalt becomes too small, which hinders fusion bonding of the waterproof sheet by the torch burner, which is not preferable.

The asphalt waterproof sheet of the present invention having the laminated base material 1 of the present invention as the core material has the dimensional stability of 0.5% or less specified in JIS A 6013. . Dimensional stability is 0.5%
If it exceeds the range, it is repeatedly expanded and contracted after waterproofing, and a gap is formed around the axis of the locking pin hole and the locking pin, which eventually causes a water leakage accident, which is not preferable.

Thus, the asphalt waterproof sheet of the present invention having the above structure has a large tensile strength in spite of being thin and lightweight, and is easy to handle during transportation and construction work. Sufficient and suitable amount, which provides water-tight fusion bonding of waterproof asphalt by the torch burner at the overlap margin, relatively short and 1
A thin washer with a thickness of mm or less is sufficient, it does not bend when exposed to strong winds, and after waterproofing, the surface of the asphalt waterproof sheet that is melt-adhered to the upper surface of the washer becomes the convex surface seen when a thick washer is used. The appearance is maintained without any damage.

According to the present invention, the asphalt waterproof sheet having the above-mentioned structure is used as a base for a concrete slab or a damaged old waterproof sheet which has already been waterproofed on the base, and a heat insulating sheet is provided on the upper surface thereof. The fixing means and the torch burner are used to perform the appropriate melt-bonding with the locking pin and the washer to the base of the overlapping portion with or without the laying surface, and the stability is good with high efficiency and good watertightness. Asphalt waterproof construction with high tensile strength that can withstand strong winds can be performed.

In the asphalt waterproof construction of the present invention,
FIG. 4 shows an example of a washer used for fixing the overlapping margin of the asphalt waterproof sheet to the base. FIG. 4 (a) shows an example of the washer 3, which has a thickness of preferably 1 mm or less, generally 0.6 to 0.8 mm, and one locking pin hole 4 at the center thereof. Have. The washer 3 may be a stainless steel plate, a galvanized steel plate, an aluminum plate or the like, but it is preferable to use a stainless steel plate having excellent corrosion resistance. The shape is preferably a rectangular shape with rounded corners, and its width is smaller than the overlapping margin of the asphalt waterproof sheet. For example, when the overlapping margin is 150 mm, the width is about one-third, that is, 40 to 50 mm, and the length is 90 to 10 mm.
It is a short rectangular plate of about 0 mm. It is common and preferable to increase the strength of the rib processed plate as shown in the figure. The washer 3'shown in FIG. 4 (b) has a length twice that shown in FIG. 4 (a), that is, 80 to 200 mm, and two washers 3'are provided in the central portion at intervals of 150 mm in the longitudinal direction. It has the same structure as the washer of FIG. 4A except that it has the locking pin holes 4, 4. The washer 3 ″ shown in FIG. 4 (c) is for fixing a heat insulating plate, and has a locking pin hole 4 at the center, as will be made clear later.
A circular plate having a diameter of 80 mm and having a diameter of 80 mm and having a thickness of 0.7 mm and having an increased strength due to bending. Of course, the diameter and the material of the metal plate are selected and produced similarly to the washers 3 and 3 ″. In any case, the washer used for fixing the overlapping margin of the asphalt waterproof sheet of the present invention is For the reason described below, a rectangular plate having a peripheral length of 225 to 300 mm, such as a width of 40 mm and a length of 73 to 110 mm) is suitable.
(D) shows a typical example of the locking pin 5 which is passed through the locking pin holes 4 of the washers 3, 3 ', 3 ". The locking pin of the present invention is as follows. It is preferable that the one driven into the concrete base has a pull-out strength of about 300 Kgf, and after drilling a hole in the concrete base, a metal or plastic anchor plug is set on it. The one in which a locking pin is driven to open the leg or the one in which a curl plug made of metal or plastic is used together can be suitably used, but FIG. 4 (d)
In FIG. 4 (d), the lower end of the anchor plug 5 is opened by driving the pin body 5a. The locking pin 5 of the formula is shown. Locking pin 1
If the pulling strength per book is less than about 300 Kgf,
Since the area occupied by the washer must be increased accordingly, after fixing the overlap margin portion of the asphalt waterproof sheet to the base with the locking pin, the back surface of the overlap margin of the asphalt waterproof sheet next to the overlap margin is fixed. Must be melted with a torch burner and pressed and adhered to the upper surface of the washer, so that the area of the washer becomes large, and the watertight joint integration between the overlapping margins is reduced, which is not preferable. From this point, it is preferable to increase the pull-out strength by the locking pin 5 so that the surface area of the washer is as small as possible, and as a result of examination, it was found that it is preferably about 300 Kgf / piece or more. Further, when the washer is a long plate having an extremely long length of 2 to 3 m, the melting surface of the coating layer of the asphalt waterproof sheet which has been heated by the torch burner is joined to the upper surface of the washer. May cause a rapid volume expansion at the high temperature to exert a lateral stress on the fixed locking pin and reduce the fixing force of the locking pin. Is 100-150m at the longest
It is preferably about m, which can prevent the fixing force from being lowered due to the lateral stress on the locking pin.

FIG. 5 shows the base B of a concrete slab on the roof of a building using the asphalt waterproof sheet of the present invention.
A large number of the asphalt waterproof sheet A of the present invention wound on a roll having a length of 8 m shown in FIG.
An example in which the asphalt waterproofing construction of the present invention is performed over the entire surface of the floor B and the foundation B of the concrete slab that constitutes the rising wall is shown. 6 is a plan view of FIG. 5, FIG.
6 is a sectional view taken along the line VII-VII in FIG. 6, and FIG. 8 is a sectional view taken along the line VIII-VIII in FIG. In the width of 50 mm from the end face on the upper surface of the overlapping margin a having a width of 150 mm on one side in the longitudinal direction of the asphalt waterproof sheet A laid on the floor base B surface of the concrete slab, as shown in FIG.
The washer 3 shown in FIG. 4B or the washer 3'shown in FIG. 4B is positioned and abutted against the washer 3 shown in FIG.
4D through the locking pin hole 4 of FIG.
To the hole b of the boring formed by drilling on the base B,
Driving, the lower end is opened as shown in FIG. 7, and the head portion 5c of the anchor plug 5b is fixed to the peripheral portion of the hole 4 to fix the overlap margin a. With such a fixing means, a large number of washers 3, 3, ... Are arranged in a line at regular intervals in the length direction of the overlapping margin a, for example, at an interval of 800 mm,
Each of the locking pins 5 is driven into the base, and the asphalt waterproof sheet A, that is, one of the asphalt roofing A
The side is fixed to the base B over the entire length. Next, the asphalt tarpaulin A on the other side of the asphalt waterproof sheet A laid adjacently is melted by heating and melting the asphalt coating layer 2 surface on the back side thereof with a torch burner and fixing the molten surface underneath. It is pressed and adhered to the upper surface of the overlapping margin a having a width of 150 mm including the washer 3. In such a case, in particular, a watertight joint with the upper stacking margin a is reliably obtained in the outer 100 mm width where the washer 3 of the lower stacking margin a does not exist and over the entire length thereof. In this manner, the fixing means and the melt-pressing and sticking means by the torch burner are repeated successively in the overlapping margin of the adjacent asphalt waterproof sheets to complete waterproofing in the length direction. In the drawing, S indicates sand scattered on the coated asphalt surface. In addition, in order to fix the widthwise end edges of the asphalt waterproof sheets A, A in the partition near the rising and rising walls of the floor of the concrete slab, FIG.
Using the washer 3'shown in (b), the washer 3'is positioned within a width of 50 mm from the end face of the washer 3 ', and the two washers 3'are used for locking as shown in FIG. The fixing pin 5 is passed through each of the pins 4 and 4 and driven into the base B to open the lower end and to fix the head portion 5a to the peripheral edge of the hole 5. In the example shown in the drawing, the same fixing means is provided at a distance of 500 mm in the width direction of the asphalt waterproof sheet, and the asphalt waterproof sheet is fixed at two positions. Next, on the fixed upper surface of the overlapping margin a having a width of 150 mm,
The entire surface of the asphalt coating layer on the rear surface of the rising wall is melted by a torch burner, and the bottom surface of the asphalt waterproof sheet A, which is pressure-bonded, is melted by a torch burner on the lower end side in the width direction of a width of 150 mm. It was pressed and stuck. In this way, the basement B of the rooftop concrete slab
The waterproof construction according to the present invention was completed on the surface.

In this waterproof construction method, according to the present invention, when a thin rectangular plate having a thickness of 1 mm or less, such as washers 3 and 3 ', is used, the washers 3 and 3'are melted by a torch burner. There is almost no volume expansion by being heated by the high temperature coated asphalt surface, and therefore, the fixing force of the locking pin 5 is not adversely affected. When the locking pin 5 as shown in the figure is used as the locking pin, the pulling-out strength is preferably at least 300 Kgf, which is preferable.

Generally, when a strong wind hits the waterproof sheet on the roof of a building or the like, a negative pressure is generated on the surface of the waterproof sheet, and the waterproof sheet is floated. When the wind becomes more windy, when the waterproof sheet is fixed by the fixing metal fitting, a large peeling stress is concentrated on the edge portion of the washer, so that the waterproof sheet is peeled off or damaged. Therefore, for example, the wind speed is 6
In the case of 0 m / sec, according to the wind pressure calculation formula based on the Building Standard Act Enforcement Ordinance Article 87, 675 kg in the corner of the rooftop
The levitation force of f / m ² is 450 Kgf / m ² in other general parts. When the pull-out strength of the locking pins 5 fixed to the concrete slab base is at least 300 Kgf, the number of the locking pins 5 at the corner of the roof is 675/300.
= 2.25 present / m ² becomes, 1 m ² per at least 3
You need a book. In the general section, 450/300 =
It becomes 1.5 lines / m ^{2 and} at least two lines are required. The number of the locking pins 5 may be large, but it is not economical to use more than necessary, and the work becomes complicated. Therefore, the number of the locking pins 5 is preferably up to 5 / m ² . In addition, when the washer is a relatively long rectangular plate as shown in FIG. 4B, it is preferable that a plurality of locking pins 5 can be inserted and fixed.

Further, according to the present invention, as described above,
Since the tensile strength of the asphalt waterproof sheet specified by JIS A 6013 is 20 to 30 Kgf / cm, the asphalt waterproof sheet A is fixed with the locking pins via washers 3 and 3 ', and the fixed waterproof sheet. The strength of the waterproof sheet being damaged when pulling and pulling is to be 300 Kgf or more per locking pin. Therefore, assuming that the safety factor is 50% and 450 Kgf, if the tensile strength of the waterproof sheet is 20 Kgf / cm, then 450/20 = 22.5 cm, and the perimeter of the washer may be 225 mm. Become. From a design point of view, if the safety factor is viewed as 100%, it becomes 600 Kgf, which is 600/20 = 30 cm. Therefore, the perimeter of the washer may be 300 mm. Therefore, the washer used in the present invention is preferably a rectangular washer having a peripheral length of 225 to 300 mm.

Thus, the tensile strength is 20 to 30 Kgf /
asphalt waterproof sheet A of the present invention using with cm, and washers length 225~300mm around the washer, the pull-out strength locking pin having at least 300Kgf in implantation of 2-5 present / m ^2, the When the overlap margin a in the length direction and the width direction is fixed to the base, the wind speed is 60 M / sec. Stable and robust asphalt waterproof construction can be obtained without peeling. Further, since the dimensional stability of the asphalt waterproof sheet of the present invention is 0.5% or less, there is almost no expansion and contraction, and it is possible to prevent the occurrence of water leakage accidents for a long period of time.

FIG. 9 shows an asphalt waterproofing method similar to the above according to the present invention.
The asphalt waterproof sheet of the present invention is provided on the entire laying surface of the old waterproof sheet A ′ to be repaired, such as a synthetic resin waterproof sheet such as an asphalt waterproof sheet or a vinyl chloride resin sheet, which has been previously applied, without peeling it off. Sheet A,
Similarly to the previous embodiment, washers 3, 3 ', and locking pins 5 are used to fix the overlapping portions a of the waterproof sheet A on one side in the lengthwise and widthwise directions A, ... Sheet A next to
FIG. 8 is a cross-sectional view of a portion corresponding to FIG. 7 in the case where waterproofing according to the present invention is performed by sequentially melting and stacking the overlapping margin a on the other side with a torch burner and performing pressure bonding. Thus, a new waterproof construction surface can be obtained on the roof easily and economically. In this case, the above-mentioned fixing of the overlapping margin portion of the asphalt waterproof sheet A of the present invention is performed while avoiding the portion where the overlapping margin portion of the old waterproof sheet A'is present. If necessary, fix the old waterproof sheet A'to each central portion in the width direction or in the vicinity thereof and at a plurality of points along the length direction using washers and locking pins of desired sizes and shapes. To do.

FIG. 10 shows the base B of the concrete slab.
In the same manner as above, a large number of heat insulating plates C are laid on each other on the upper surface to form a heat insulating layer, and the asphalt waterproof sheet A of the present invention is used through the flat heat insulating layer. FIG. 8 is a cross-sectional view of a portion corresponding to FIG. 7 when the waterproof construction of the present invention is performed.

FIG. 11 shows the base B of the concrete slab.
On the upper surface of the old waterproof sheet A'to be rehabilitated previously, a large number of heat insulating plates C are laid to face each other to form a heat insulating layer, and the asphalt waterproofing of the present invention is formed on the upper surface. FIG. 8 is a cross-sectional view of a portion corresponding to FIG. 7 in the case where the sheet A is waterproofed by the asphalt waterproofing method of the present invention in the same manner as above.

As shown in FIGS. 10 and 11, the heat insulating plate C
When laid, it is preferable to fix it to the concrete foundation. In this case, the workability is improved by fixing as shown in FIG. That is, the four corners of the rectangular heat insulating plates C, which are butt-aligned with each other, are butted against each other, and the circular washer 3 ″ shown in FIG. 14 (c) is locked at the center at the intersection of the cross joints. When the positioning pin holes 4 are aligned and positioned, since the washers 3 ″ are evenly applied across the four corners of the heat insulating plates C butted against each other, the locking pin holes 4 are locked. This pin 5 and washer 3 ″ can be used to drive 4
The corners of the heat insulating plates C can be fixed. Similarly, for each part where four corners are butted against each other, by fixing these corners using a washer 3 ″, one washer and one locking pin 5, heat is economically and easily insulated. The entire laying surface of the plate can be fixed to the base B.

Next, a more detailed embodiment will be described. Example 1 On an upper surface of an old asphalt waterproof layer to be rehabilitated, which was previously constructed on the rooftop of a building, had a thickness of 4 mm, a width of 1050 mm and a length of 8 m, and had a width of 150 on one side edge in the length direction.
A rubber asphalt roofing with sand having an exposed overlap margin of the asphalt coating layer surface of mm is laid. The rubber asphalt roofing is made of a mixed fiber of polyester fiber and vinylon fiber as a material, and when a non-woven fabric is made into a paper, a mesh of 2 × 2 yarns / cm is formed with a coarse count of 1000 denier yarn made of polyester fiber. Rubber asphalt was impregnated and coated on the laminated base material, and the amount of asphalt shown in Table 1 below, JIS A 6
This is an asphalt waterproof sheet having tensile strength and dimensional stability specified in 013.

[0026]

[Table 1]

Next, at a position 100 mm from the inner end face of the overlap margin of the rubber asphalt roofing, the thickness of 0.
7mm, width 40mm, length 100mm, made of stainless steel with 4 corners rounded into an arc shape.
A locking hole having a diameter of 6 mm is drilled at a location, and a substantially rectangular washer with improved mechanical strength is applied by bending, and the locking pin of the type shown in FIG. The fixing work was performed by driving up to the base of the slab. This driving and fixing operation was performed by using washers and locking pins at intervals of 800 mm along the length of the roofing. In addition, in the corner of the roof (within 1m from the corner),
Overlap of the widthwise edge of 150mm width, a 0.7mm thick, 40mm wide, 200mm long washer is placed at a position within 100mm from the end face, and through the same locking pin as above, concrete base Then, the fixing work was performed by driving the washer and the locking pin at a distance of 500 mm in the width direction. Next, the sanding asphalt roofing margin formed by exposing the above-mentioned 150 mm wide coated asphalt adjacent to the upper surface of the sanding rubber asphalt roofing fixed in this manner. When polymerizing and adhering, the back side of the asphalt coating layer of the overlapping margin is melted with a torch burner and pressure-bonded to the upper surface of the fixed overlapping margin, thus the upper and lower overlapping margins have a width of 150 mm. It was watertightly joined. In addition, on the upper surface of the edge in the width direction near the corner that was fixed earlier, the lower end of the same rubber asphalt roofing that was completely melted and adhered to the rising part (vertical wall) of the roof was installed in the horizontal floor direction. The bottom edge of the bent backside was pressed and stuck by melting the backside of the coated asphalt with a torch burner. The fixing means and the overlap margin of the torch burner are pressed against each other for the opposite overlap margins of the adjacent rubber asphalt roofing, and the new tensile strength of the new waterproof layer over the entire floor surface is improved. A new asphalt waterproof construction surface of the present invention, which is stable and has no peeling due to a large wind, is formed.

Example 2 A thickness of 30 mm, a width of 605 mm, and a length of 9 were formed on an old asphalt waterproof layer to be repaired, which was previously constructed on the roof of a building.
After laying 10 mm hard urethane heat insulating plates against each other at their side edges, they are placed at the intersections of the cross-shaped joints formed by the butting of the side edges of each heat insulating plate.
As shown, a circular washer made of zinc-plated steel with a thickness of 0.7 mm and a diameter of 80 mm, and having a locking pin hole with a diameter of 10 mm at the center, is attached to the hole, and the pin hole has a diameter of 10 m.
An anchor made of galvanized steel having a length of m, a length of 70 mm and a head diameter of 16 mm was driven into the base to fix the heat insulating plate.
Thus, such fixing work was repeated at each of the intersections to fix the entire laying surface of the heat insulating plate. Thereafter, the rubber asphalt roofing of the present invention was used thereon in the same manner as in Example 1 to perform fixing at the overlap margin portion with a washer and a locking pin and melt pressing with a torch burner to obtain a high tensile strength. Also completed the asphalt waterproof construction of the present invention, which is stable and robust against strong winds.

[0029]

As described above, according to the present invention, since the base material of the asphalt waterproof sheet is composed of the laminated base material composed of the non-woven fabric and the mesh, compared with the conventional asphalt waterproof sheet having only the non-woven fabric as the base material. However, an asphalt waterproof sheet having a coated asphalt layer suitable for melting by a torch burner, which has a remarkably small mass per unit area of the base material, is lightweight, has an extremely high tensile strength, and has excellent dimensional stability. can get.

Further, according to the present invention, when an asphalt waterproof sheet is formed using the above-mentioned laminated base material, the mass per unit area of the base material is 100 to 200.
g / m ^2, and the amount of asphalt to be impregnated and covered with this is 2800 to 3500 g / m ² , JIS A 601
The tensile strength specified in 3 is 20 to 30 Kgf / cm,
When the dimensional stability is 0 to 0.5% or less, not only can an asphalt waterproof sheet suitable for melting by a torch burner with a large amount of coated asphalt be reliably obtained, but also easy to handle and good in workability, Further, there is almost no expansion and contraction after construction, and it is possible to form a stable and robust waterproof construction layer with no gap around the axis of the locking pin and no risk of water leakage.

In forming a heat insulating layer by arranging heat insulating plates on the upper surface of the base made of concrete slab or the base made of an old waterproof sheet applied on top of each other, the side edges of the heat insulating plate are formed. Align the locking pin holes of the washers at the intersections of the cross-shaped joints generated by the butting, and insert the locking pins into the pin holes, and when driving into the foundation of the concrete slab, use four washers with one washer. The heat insulating plate can be fixed, resulting in increased work efficiency.

[Brief description of drawings]

FIG. 1 is a perspective view in which a part of a laminated base material according to an embodiment of the present invention is cut away.

FIG. 2 is a perspective view in which a part of the asphalt waterproof sheet of the present invention in which the laminated base material of FIG. 1 is used as a core material is cut.

FIG. 3 is a comparative graph showing the relationship between the mass per unit area and the tensile strength of the nonwoven fabric of the laminate base material and the asphalt waterproof sheet of the present invention, and the conventional nonwoven fabric base material and the asphalt waterproof sheet.

FIG. 4 (a) is a plan view of an example of a washer used in the present invention.

FIG. 4 (b) is a plan view of another example of a washer used in the present invention.

FIG. 4 (c) is a plan view of still another example of the washer used in the present invention.

FIG. 4D is a side view of the locking pin used in the present invention.

FIG. 5 is a perspective view in which a part of the example of the asphalt waterproofing construction method of the present invention is cut away.

FIG. 6 is a plan view of a portion of FIG.

7 is a sectional view taken along the line VII-VII in FIG.

8 is a sectional view taken along the line VIII-VIII in FIG.

FIG. 9 is a vertical cross-sectional view of another embodiment of the asphalt waterproofing construction method of the present invention.

FIG. 10 is a vertical cross-sectional view of still another embodiment of the asphalt waterproofing method of the present invention.

FIG. 11 is a vertical sectional view of still another embodiment of the asphalt waterproofing method of the present invention.

FIG. 12 FIG. 10 of the asphalt waterproofing construction method of the present invention
The top view which cut away a part in the Example shown.

13 is a vertical cross-sectional view of FIG.

[Explanation of symbols]

1 Laminate base material of the present invention 1a Nonwoven fabric 1b Mesh 2 Asphalt coating layer 3 Washer 3'Washer 3 "Washer 4 Locking pin hole 5 Locking pin A Asphalt waterproof sheet of the present invention a Stacking margin B Concrete slab base A ′ Old waterproof layer C Insulation board

Claims (6)

[Claims] 1. An asphalt waterproof sheet obtained by impregnating a base material with an asphalt waterproof material and coating it, wherein the base material is a laminated base material of a non-woven fabric and a mesh. 2. The mass per unit area of the laminate base material is 100 to 200 g / m ² , and the amount of the asphalt waterproof material impregnated into and covering the laminate base material is 2800 to 35.
00 g / m ² , the tensile strength specified in JIS A 6013 is 20 to 30 Kgf / cm, and the dimensional stability is 0.
It is 0.5%, The asphalt waterproof sheet according to claim 1. 3. The method according to claim 1, wherein a large number of the asphalt waterproof sheet according to claim 2 is prepared and laid on a base made of a concrete slab or a base made of an old waterproof sheet to be repaired provided on an upper surface of the concrete slab. A washer having a width narrower than the overlapping margin is applied to the upper surface of the overlapping margin on one side of the asphalt waterproof sheet described in 2, and at least one pin through the locking pin hole is driven into the foundation of the concrete slab. After arranging the fixing means for fixing along the stacking margin at a predetermined interval, the stacking margin on the other side of the adjacent asphalt waterproof sheet adjacent thereto is melted by using a torch burner on the back surface. The asphalt waterproofing method, characterized by pressing and adhering to the upper surface of the fixed overlapping margin. 4. The washer is made of a rib-processed plate having a thickness of 1 mm or less, has a peripheral length of 225 to 300 mm, and has 2 to 5 locking pins having a pull-out strength of 300 Kg / f.
4. The method for waterproofing asphalt according to claim 3, wherein the number of lines / m ^{2 is} used. 5. The asphalt waterproof sheet according to claim 1 or 2 is used by laying heat insulating plates in a state of abutting each other on the entire surface of the substrate to form a flat heat insulating plate laying surface, through which the asphalt waterproof sheet according to claim 1 or 2 is used. In the process of waterproofing according to claim 3 or 4, the asphalt waterproofing is characterized in that these heat insulating plates are simultaneously fixed by a work of fixing the overlapping margin on one side of the asphalt-based waterproofing sheet. Construction method. 6. The corners of the four heat insulating plates are abutted against each other, a washer is applied to the abutting corners of the cross shape, and a pin hole for locking the washer located at the center of the cross joint is inserted. The asphalt waterproofing construction method according to claim 5, wherein said pin is driven into and fixed to a concrete foundation.