JPH05125801A - Asphalt waterproof structure and its construction - Google Patents

Abstract

PURPOSE:To improve durability of a waterproof layer by placing concrete by way of laying a first waterproof layer provided With a synthetic resin layer and a second waterproof layer on the bed concrete. CONSTITUTION:A first waterproof layer consisting of an adhesive material layer 2 provided with an adhesive material non-existing part for deaeration, a synthetic resin layer 3, an asphalt layer 4 and an antisticking layer 5 preventing asphalt from sticking to other matters is adhered on the bed concrete 22. Thereafter, a second waterproof layer consisting of an antisticking layer 6 to prevent asphalt from sticking to other matters, an asphalt layer 7 and a synthetic resin layer 8 is adhered by using fused asphalt 20. Thereafter, presser concrete 23 is placed on these first waterproof layer and second waterproof layer, and alkali water is prevented from immersing into the waterproof layers from above and below. Consequently, it is possible to extensively improve durability of the waterproof layers and to save labor.

Description

Detailed Description of the Invention

[0001]

TECHNICAL FIELD The present invention relates to asphalt waterproofing of a rooftop of a building, etc.

[0002]

2. Description of the Related Art Waterproofing of a rooftop of a building is originally required to completely fulfill the function of waterproofing during the use of the building and to prevent water leakage. That is, it is difficult to find the location that causes water leakage from the rooftop, and if there is a holding concrete layer, it is very costly and troublesome to remove the holding concrete layer to repair it. It is necessary to renovate the entire surface of the holding concrete directly and further to provide a holding layer on it. Further, this asphalt waterproof layer needs to withstand the external force due to the load and movement of the holding concrete (15-20 cm thick layer) provided thereon. Further, the asphalt layer is always in contact with alkaline water because the concrete layers are present one above the other. Therefore, the conventional ideal waterproofing is
It took a lot of time and effort to stack 3 to 5 pieces of asphalt roofing on the lower ground using molten asphalt. As a result, the total thickness of the waterproof asphalt layer was as thick as 1.3 to 2.0 cm. In addition, asphalt has problems such as odor, skin, and clothes that are easily contaminated during construction, causing pollution problems and being disliked by workers. On the other hand, as a countermeasure against asphalt waterproofing, sheet waterproofing and coating waterproofing have been proposed, but sheet waterproofing using one sheet of synthetic resin or synthetic rubber with a thickness of 1 mm or more, or coating waterproofing of only coatings Since it cannot pass through the damage to the waterproof layer due to the presser concrete, it is inevitably poor in reliability, cannot be used for presser waterproofing, and has little track record.

[0003]

[Objective] The object of the present invention is to achieve resource saving, labor saving, and manpower saving while utilizing the reliability of asphalt waterproofing.
At the same time, it is to provide an asphalt waterproof structure and its construction method for reducing pollution problems and avoiding unpopularity of workers.

[0004]

[Structure] The first aspect of the present invention is to provide a base, (a) (a) an adhesive layer provided with a non-adhesive portion for deaeration, (b) a synthetic resin layer,
(c) Asphalt layer, (d) First waterproof layer composed of a layer for preventing adhesion of the asphalt to other objects, (b) Molten asphalt layer, (c) (e) Other (f) layer asphalt other objects The present invention relates to a waterproof asphalt waterproof structure having a sticking prevention layer, (f) an asphalt layer, (g) a second waterproof layer made of a synthetic resin layer, and a concrete layer provided thereon. A second aspect of the present invention is: (a) an adhesive material layer provided with an adhesive-free portion for deaeration, (b) a synthetic resin layer, (c) an asphalt layer, and (d) another material of the asphalt. A first waterproof layer composed of an anti-adhesion layer is attached to the base surface by the (a) layer, and then (e) an anti-adhesion layer for the following (f) layer asphalt to other things, (f) an asphalt layer, (g) A method for constructing a holding asphalt waterproof structure, comprising bonding a second waterproof layer made of a synthetic resin layer with molten asphalt, and then placing concrete on the second waterproof layer. The (b) synthetic resin layer has a laminated structure in which the (a) layer side is a synthetic resin film and the (c) layer side is a coating layer, and the coating layer is composed of the (b) layer and the (c) layer. When forcedly peeled off, the synthetic resin film layer or the asphalt layer (c) preferably provides an adhesive force that causes cohesive failure. The synthetic resin layer (g) is a synthetic resin film having coating layers on both sides and capable of withstanding the heat of molten asphalt, and the coating layer was forcibly peeled off from the one bonded to the asphalt. At this time, it is preferable that the synthetic resin film layer or the asphalt give an adhesive force enough to cause cohesive failure.

The asphalt layer of the above (c) and (f) is formed by using an ordinary asphalt or a modified asphalt, but if necessary, a reinforcing base material layer such as a woven fabric or a non-woven fabric having various structures is used. Can be built-in. For example, the above (c) and (f) are conventional asphalt-base material-
It is also possible to use an asphalt layer made of normal asphalt or an asphalt layer made of modified asphalt-base material-modified asphalt. Examples of the modified asphalt include those modified with a modifier such as SBS, atactic polypropylene and SBR.

The pressure-sensitive adhesive material constituting the pressure-sensitive adhesive material layer (a) is
Among general-purpose adhesive materials prepared by using synthetic resins, synthetic rubbers, natural rubbers, recycled rubbers, etc. as main raw materials, they can be adopted if they have good adhesiveness to a base material such as concrete and are rich in alkaline water resistance. Since the present invention relates to an asphalt waterproofing method, an adhesive material obtained by adding the above-mentioned synthetic polymer substance to asphalt is desirable. Specific examples of the adhesive material can have the following compositions. SBS (Styrene / Butadiene / Styrene / Block Copolymer) 20 parts by weight Petroleum resin (tackifier) 10 parts by weight Asphalt 40 parts by weight Process oil 30 parts by weight Adhesive coating thickness is the non-adhesive coating part It is set with consideration given to wide voids formed between the base and the base. 0.
It may be about 3 to 1.0 mm. The part without adhesive material is
It only needs to be formed so that moisture and the like can be degassed through the location, and it is sufficient to dispose the adhesive material discontinuously.
Typically, it may be provided in stripes. In addition, a release layer such as release paper may be temporarily adhered on the adhesive layer of the first waterproof layer, and this can be used by peeling it off during construction.

Unlike the synthetic resin layer of (g), the synthetic resin layer of (b) does not come into direct contact with molten asphalt, and therefore does not require heat resistance as high as that of the synthetic resin layer of (g). Usually, a plastic film can be used. As the plastic film, a polyolefin film such as polyethylene or polypropylene, an acrylic resin film, a polyester film, a polyamide film, or the like can be used. In particular, in the synthetic resin layer of (b), the plastic film and () are provided on the side in contact with the asphalt layer of (c) so that delamination does not occur when the layers (b) and (c) are bonded. It is preferable to apply a coating film having a high affinity to both the asphalt of c). As such a coating film forming material, urethane-based, acrylic urethane-based, acrylic-based, polyamide-based, polyester-based paints and the like can be used.
In short, this coating layer exhibits an adhesive force enough to break the (b) layer or the (c) layer when a force is applied to forcibly separate the (b) layer and the (c) layer. It is sufficient that the asphalt layer has such a property, and when there is such an adhesive force, the asphalt layer usually causes cohesive failure when forcibly peeling the two. It is possible to determine whether or not the adhesive force is exerted. The thickness is preferably about 5 to 30 μ. Since the synthetic resin layer of (g) comes into contact with the molten asphalt during construction, it is suitable that it can withstand the heat of the molten asphalt. A polyolefin-based, acrylic resin-based, polyester-based or polyamide-based resin having such properties is suitable. Although the synthetic resin (1) can be used, a stretched or unstretched film of polyethylene terephthalate (PET) is particularly preferable. Further, the thickness of the (g) layer is required to be less likely to be damaged during construction, and is preferably about 8 to 30 μm. Further, as a plastic film containing a large amount of a plasticizer or a softening agent such as soft polyvinyl chloride, they bleed later, and the adhesiveness with the asphalt composition on the back surface of the plastic film and the coating described later on the plastic film surface. It is better to avoid it because the adhesiveness with the membrane layer may be extremely reduced.

On the surface of the synthetic resin layer of the above-mentioned (g) layer, there is a point of adhesiveness with the asphalt layer or a point of enhancing watertightness with an adjacent waterproof sheet, and prevention of slippage of the surface of the second waterproof sheet (non-slip property). From the viewpoint of (1) and the like, it is preferable to apply a paint in which fine particles are mixed with a general-purpose synthetic resin paint. Especially, in the case of ordinary asphalt, the adhesive force with the synthetic resin layer is weaker than that of the modified asphalt, so that the presence of the fine particle-containing coating film is effective. As the fine particles, steel substance fine powder and plastic beads can be used. As the synthetic resin paint, polyurethane, polyester, polyamide, acrylic resin, a copolymer of ethylene and vinyl acetate, or the like can be used. As the steel substance fine powder, silica, silica sand, mica, clay, alumina and the like are used. Any plastic beads such as polystyrene can be used as the plastic beads. Among these steel substance fine powders, silica is particularly preferable in consideration of non-slidability, dispersibility in a synthetic resin coating, and cost. If the particle size is too small, it is difficult to obtain non-slip performance, and if it is too coarse, the coating on the plastic film is hindered.
A particle size of about 10 μm is preferable. In the case of plastic beads, those having a spherical diameter of 5 to 30 μ are preferable. The composition as a suitable synthetic resin coating material is 50 to 80 parts by weight of solvent, preferably 70 to 7 parts by weight, relative to 100 parts by weight of synthetic resin.
5 parts by weight, fine particles 3 to 25 parts by weight, preferably 5 to 1
0 parts by weight, dark colorant, for example carbon black 3 to 2
It is 0 part by weight, preferably 5 to 10 parts by weight. In addition, as the synthetic resin paint, in addition to the type that forms a film by solvent drying, the reaction-curing type that uses a main agent and a curing agent can firmly adhere to the plastic film surface and can provide a film with excellent durability. preferable. Considering these, among the above-mentioned synthetic resin paints, the reaction-curable one-component or two-component polyurethane, polyester, or polyamide type is economically easy to use.

As the layer for preventing adhesion of the asphalt layer to other substances, the most inexpensive, simple and versatile layer is an inorganic particle layer such as sand. However, it is also possible to use the synthetic resin layer which has been subjected to the coating film treatment. This layer is a layer for preventing the asphalt layer from coming into contact with other objects to become sticky, and the anti-adhesion layer on the surface of the first waterproof layer is a layer that can sufficiently adhere to the second waterproof layer via the molten asphalt. Must.

After the waterproofing work is completed, the pressing concrete is struck. In this case, the isolation layer is usually formed on the waterproof layer.
A film or cloth made of synthetic resin can be provided so that the external force due to cracks in concrete does not directly affect the waterproof layer.

[0011]

EXAMPLES As the first waterproof layer, (a) layer is an adhesive material layer obtained by applying the adhesive material shown in the specific example in a stripe shape, and (b) layer is the modified asphalt side with the following synthetic resin paint. 5 g / m
² coated biaxially oriented polypropylene film, (c) layer is composed of the following modified asphalt-polyethylene terephthalate nonwoven fabric (150 g / m ² ) -layer of the following modified asphalt, and (d) layer is composed of mineral fine particles. ) Release paper is adhered on the layer, and it is carried to the site in roll form.
The first waterproof layer has a thickness of 2.2 mm. Synthetic resin paint NB 300 RS-2 (Dainichi Seika, trade name) 100 parts by weight Lasic B Hardener (Dainichi Seika, trade name) 5 parts by weight Lasic F (solvent) (Dainichi Seika, trade name) 50 parts by weight Quality asphalt SBS (Shell Chemistry TR-1101) 15% by weight Straight asphalt 180-200 85% by weight The first waterproof layer adheres to a concrete substrate while peeling the release paper. In the second waterproof layer, the (e) anti-adhesion layer is the mineral fine particle layer, and the (f) layer is the modified asphalt-polyethylene terephthalate nonwoven fabric (180 g / m ² )-
A layer comprising the modified asphalt, the layer (g) having the synthetic resin coating film of 2 to 3 μm on both upper and lower surfaces, and a thickness of 9
It is composed of polyethylene terephthalate film with a thickness of μm, and is also transported to the site in roll form. The thickness of the second waterproof layer is 1.7 mm. On the first waterproof layer, 1.
5 kg / m ² of molten asphalt is applied, and the second waterproof layer is adhered thereon. In this way, the first,
After forming the second waterproof layer, a pressing concrete layer having a thickness of 15 cm was struck on the second waterproof layer to complete the waterproofing work. The adhesive strength between the first waterproof layer and the second waterproof layer in this embodiment is set to an angle of 180.
The result of measurement in a room at 20 ° C. under the condition of 100 ° C./min was 4.1 kg / inch, and the asphalt layer was cohesively broken due to forced peeling. In addition, the laminate of the first waterproof layer and the second waterproof layer is treated with alkaline water (pH 11) for 14 days.
Upon immersion, the water absorption was only 2.0 g / m ² and the strength retention was 100%.

[0012]

【effect】

(1) With the first waterproof layer and the second waterproof layer having a thickness of approximately 5 to 10 mm, it is possible to form a waterproof layer which is as good as or better than the conventional 15 to 20 mm waterproof layer. (2) Since the synthetic resin layer is below the first waterproof layer and the synthetic resin layer is above the second waterproof layer, it is possible to greatly reduce the intrusion of alkaline water into the waterproof layer from above and below. Therefore, the durability of the waterproof layer is greatly improved. (3) Conventional asphalt roofing requires a top coating of molten asphalt on its surface in order to prevent intrusion of alkaline water, but in the present invention, since a synthetic resin layer is present on the surface of the second waterproof layer, No overcoating step with molten asphalt is required. (4) The number of steps is drastically reduced compared to the conventional method. (5) The amount of molten asphalt used is 1/2 to 1/3 that of the conventional method
The pollution problems such as the generation of foul odors are reduced because of the following. (6) Mineral particles on the surface of conventional asphalt roofing are relatively easy to remove, and if an operator hits his shoulder for transportation, the particles will come off and stain clothes. Since the surface of this material (second layer) is a synthetic resin layer, it has a clean image because it is handled cleanly.

[Brief description of drawings]

FIG. 1 is a cross-sectional view showing one structural example of a first waterproof layer used in the present invention.

FIG. 2 is a cross-sectional view showing one structural example of a second waterproof layer used in the present invention.

FIG. 3 is a view of a presser foot waterproof asphalt structure according to the present invention 1
It is a sectional view showing an example of composition.

[Explanation of symbols]

 1 Release Paper 2 Discontinuous Adhesive Layer 3 Synthetic Resin Film 4 Asphalt Layer 5 Anti-Adhesion Layer 6 Anti-Adhesion Layer 7 Asphalt Layer 8 Synthetic Resin Film 11 Modified Asphalt 12 Base Material 13 Modified Asphalt 20 Molten Asphalt 21 Isolation Layer 22 Base Concrete 23 Foot concrete

Claims (4)

[Claims] 1. A substrate, (a) (a) an adhesive layer provided with a non-adhesive portion for deaeration, (b) a synthetic resin layer, (c) an asphalt layer, (d) other asphalt A first waterproof layer composed of a layer for preventing adhesion to objects, (b) a molten asphalt layer,
(C) (e) Second layer consisting of the following (f) layer asphalt anti-adhesion layer to other materials, (f) asphalt layer, (g) synthetic resin layer
A retaining asphalt waterproof structure comprising a waterproof layer and a concrete layer provided thereon. 2. The synthetic resin layer of (b) has a laminated structure in which the (a) layer side is a synthetic resin film and the (c) layer side is a coating layer, and the coating layer is a (b) layer. The asphalt waterproof structure according to claim 1, wherein the synthetic resin film layer or the asphalt layer of (c) provides an adhesive force for causing cohesive failure when the layer (c) is forcibly peeled off. 3. The synthetic resin layer of (g) is a synthetic resin film having coating layers on both sides and capable of withstanding the heat of molten asphalt, and the coating layer is adhered to the asphalt. The asphalt waterproof structure according to claim 1, wherein the synthetic resin film layer or the asphalt gives an adhesive force to cause cohesive failure when the film is forcibly peeled off. 4. (a) an adhesive layer provided with an adhesive-free portion for deaeration, (b) a synthetic resin layer, (c) an asphalt layer,
(d) A first waterproof layer composed of a layer for preventing the asphalt from adhering to other materials is attached to the underlayer by the layer (a), and then (e) the following (f) layer asphalt to other materials. A pressing asphalt waterproof structure characterized in that a second waterproof layer consisting of an adhesion prevention layer, (f) asphalt layer, and (g) synthetic resin layer is bonded using molten asphalt, and then concrete is struck on the second waterproof layer. Construction method of the thing.