JP2731838B2 - Sheet waterproofing method - Google Patents

Description

Description: FIELD OF THE INVENTION The present invention relates to a waterproofing method for roofs, roofs, verandas, bathrooms or basements of buildings such as concrete buildings. More specifically, the present invention relates to a waterproofing method in which an asphalt-based waterproof sheet is used for waterproofing, the sheet is fixed to a portion requiring waterproofing (referred to as a “waterproof base”) with a locking member, and the sheets are joined by fusion or adhesion.

[Prior art] A waterproofing method (referred to as a “sheet waterproofing method”) in which a waterproofing sheet formed by laminating a polymer-modified asphalt on a reinforcing cloth as a waterproofing layer is spread over a waterproofing base (referred to as “sheet waterproofing method”) is a method of bonding to a waterproofing base. (1) a thermal method using a hot-melted polymer-modified asphalt, (2) an adhesive method using an adhesive, (3) a torch method for melting and bonding a waterproof sheet by torch heating, and (4) a pressure-sensitive adhesive layer. An adhesive method for bonding is known.

Each of these is a contact method in which the waterproof sheet is adhered to the entire surface of the waterproof base, the work is complicated, and there are many manual parts.
It required considerable experience and skill, and the work efficiency was very poor. In addition, in such a construction method, if the waterproof base is wet, sufficient adhesion is not performed, and a gas such as water vapor generated from the base causes swelling of the waterproof sheet, and the deterioration of the part is promoted, and the waterproof life is shortened. There is a problem that becomes shorter. For this reason, it is necessary to adhere the waterproofing sheet in a state where the waterproofing base is completely dried, and the waterproofing construction plan has been considerably disturbed, and the construction period has been increased and the cost has often increased.

In order to improve the shortcomings of these contacting methods, an insulating method of fixing a waterproof sheet partially without adhering to a waterproof base has recently been used. For example, a method of fixing a waterproof sheet made by laminating a sheet mainly composed of chlorinated polyethylene and chlorosulfonated polyethylene on a polyester woven or braided cloth, or a waterproof sheet made of a polyvinyl chloride resin with a nail on a waterproof base. Has been done.

This method is easy to tear from a part fixed with a nail, and a waterproof sheet used in this method needs to have a tensile strength and a tear strength enough to withstand a tearing force. Since the waterproof sheet such as the chlorinated polyethylene has a large tensile strength and tear strength of the resin as a main component, it can be fixed with a nail alone with a single sheet or an auxiliary sheet laminated with a coarse mesh-like polyester woven fabric. It is possible.

However, a waterproof sheet formed by laminating a sheet mainly composed of chlorinated polyethylene and chlorosulfonated polyethylene on a polyester woven fabric or a braided cloth, or a waterproof sheet made of a polyvinyl chloride resin is expensive and is not so expensive. Since the thickness cannot be increased, it is easily blown off by the wind, and has disadvantages such as a high heat fusion temperature.

On the other hand, asphalt-based waterproof sheets are mainly composed of asphalt, and even if modified with a polymer, their tensile strength and tear strength are much lower than those of the above-mentioned resins, so if they cannot be supported by a reinforcing cloth, Even the shape cannot be maintained. For this reason, the sheet is usually reinforced by laminating a polyester or glass-based nonwoven fabric or woven fabric as a reinforcing cloth, but the effect is to keep the shape of the waterproof sheet, and it is not possible to fix it with nails Conventionally, it was thought that it could not be carried out because of insufficient strength.

The reason is that the method of fixing with nails is not suitable for asphalt-based sheets, and the above-mentioned reinforcing cloth can increase the tensile strength by increasing its basis weight, but the tear strength can be made much larger. This is especially true for nonwoven fabrics. As an example, the relationship between the basis weight and the tear strength of the polyester nonwoven fabric is shown in the table below. The tear strength does not increase by increasing the basis weight alone.

[Problems to be Solved by the Invention] A sheet mainly composed of chlorinated polyethylene and chlorosulfonated polyethylene used in an insulation method for partially fixing a waterproof sheet without adhering to a waterproof base material is made of a polyester woven fabric or a set. A waterproof sheet laminated with a sheet, or a waterproof sheet made of polyvinyl chloride resin is expensive, and cannot be made too thick because it is expensive. There is.

On the other hand, asphalt-based waterproof sheets are inexpensive but have insufficient strength because asphalt is the main component, and the strength is still insufficient even when a polyester or glass nonwoven fabric or woven fabric is laminated as a reinforcing cloth. And was not used.

An object of the present invention is to solve the above-mentioned problems and to provide a sheet waterproofing method by an insulating method using an asphalt-based waterproof sheet.

[Means to solve the problem] Asphalt-based waterproofing sheet requires skill and does not require skill, does not require skill, does not require skill, has good working efficiency, and swells even if the waterproof substrate is slightly wet. As a result of examining the insulation method that does not occur,
Even if a waterproof sheet made by laminating asphalt on a non-woven fabric is used, a sufficient strength can be obtained by locking the waterproof base with a specific method using a locking member, and the asphalt is a polymer-modified asphalt. It has been found that greater strength can be obtained by locking with a locking member through the intervening member, and the sheet waterproofing method of the present invention has been completed.

According to a first aspect of the present invention, one end of a waterproof sheet obtained by impregnating and laminating a polymer-modified asphalt into a nonwoven fabric is fixed to the waterproof base with a locking member for fixing the waterproof sheet to the waterproof base. The waterproofing sheet is characterized in that one end of the waterproofing sheet is laminated so as to cover the locking member, and the laminated surfaces of the sheets are joined to each other.

According to a second invention of the present invention, the nonwoven fabric is made of polyester fiber, and the basis weight is 50 g / m ^2.
2. The sheet waterproofing method according to claim 1, wherein the thickness of the sheet is in the range of 1 to 400 g / m ² .

A third invention of the present invention is the sheet waterproofing method according to claim 1 or claim 2, wherein the fixing method by the locking member is a method of locking via a holding member.

A fourth invention of the present invention is a method according to the invention, wherein the holding member is made of metal or plastic and has a diameter or a side length of 20 mm to 60 mm,
Alternatively, the sheet waterproofing method according to any one of claims 1 to 3, which is a rectangle having a short side having a length of 20 mm to 60 mm.

A fifth invention of the present invention is the sheet waterproofing method according to any one of claims 1 to 4, wherein the joining method is adhesion by heat fusion.

A sixth invention of the present invention is the sheet waterproofing method according to any one of claims 1 to 5, wherein the thickness of the waterproof sheet is in a range of 1.0 mm to 10.0 mm.

A seventh invention of the present invention is the method according to any one of claims 1 to 6, wherein a unit weight of the waterproof sheet is in a range of 1.2 kg / m ² to 12.0 kg / m ² . It is a sheet waterproofing method.

The main features of the present invention are that waterproofing can be performed by an insulating method using an inexpensive asphalt-based waterproofing sheet, whereby workability of the construction is good, and swelling does not occur. Fixing with a locking member improves workability of construction, and is insulated without adhering to the waterproof base,
The gas generated from the waterproof base is dispersed throughout and does not swell. The asphalt-based waterproof sheet is a waterproof sheet formed by laminating a sheet mainly composed of the above-mentioned chlorinated polyethylene and chlorosulfonated polyethylene on a polyester woven fabric or a braided fabric, or a waterproof sheet made of a polyvinyl chloride resin. Compared with the above, the material is inexpensive, so that the thickness of the waterproof sheet can be increased, so that the waterproof effect is increased, the weight is heavy, it is difficult to fly by the wind, and the person can walk on top . In addition, there are features such as a low heat fusion temperature and a small pressure bonding load, so that mutual bonding is easy. .

The asphalt used in the present invention may be petroleum-based or coal-based asphalt, but petroleum-based asphalt is preferable.
Petroleum asphalt can use either straight asphalt or blown asphalt,
Preferably, it is straight asphalt.

Further, asphalt used in the present invention is preferably asphalt modified with a polymer. Examples of polymer-modified asphalt include ethylene-vinyl acetate copolymer (EVA), ethylene-
Acrylate copolymer, ethylene-methyl acrylate copolymer, ethylene-propylene copolymer, ethylene-propylene-diene copolymer, ethylene-butene copolymer, ethylene-butene-diene copolymer, styrene -Butadiene copolymer, styrene-isoprene copolymer, polyvinyl chloride, polychloroprene,
Polyethylene, polypropylene, polyisobutene, butyl rubber, natural rubber, petroleum resin, rosin, rosinester,
Atactic polypropylene, low molecular weight polyethylene,
Examples thereof include those obtained by uniformly mixing and dissolving 1 part by weight to 200 parts by weight, preferably 4 parts by weight to 150 parts by weight of a polymer such as a wax alone or in combination of two or more.

The waterproof sheet used in the present invention is a laminated sheet in which asphalt is laminated on a nonwoven fabric.

The nonwoven fabric used in the present invention is not particularly limited, and examples thereof include polyester fibers fixed by needle punching, polymer binder, or heat fusion. Basis weight of these nonwoven fabrics from 50g / m ² 400g / m
² and preferably in the range of 70 g / m ² to 300 g / m ² . If the basis weight is lower than 50 g / m ² , the nail tear strength is insufficient when the waterproof sheet is fixed with nails, one of the locking members. Conversely, if it exceeds 400 g / m ² , the waterproof sheet becomes too stiff and construction becomes difficult.

Here, the nail tear strength refers to the practical strength when the waterproof sheet is fixed with nails.A section of a rectangular cut waterproof sheet 2.5 cm from one end is fixed with a 5 mm diameter nail and the other end is a tensile tester. It is expressed by the strength when pulled at a speed of 100 mm / min, and mechanically indicates the tear strength of the nail.

The present invention has been made by using the asphalt-based waterproof sheet having a high nail tearing strength, and has been found that even an asphalt-based waterproof sheet can be used sufficiently practically. The strength is independent of the tear strength used in the conventional strength evaluation, and is due to the finding that the normal tear strength becomes higher according to the basis weight even when the tear strength is low. . For example, the weight per unit of the heat fusion type
Longitudinal tear strength of non-woven polyester fabric of 98 g / m ² is 2.0k
Although it is small as gf, it is apt to be considered that the strength is insufficient for the insulation method, but the nail tear strength is as large as 14 kgf. Further, when the nail is driven through the holding member, the nail tearing strength of the asphalt waterproofing sheet is further improved, and the strength becomes sufficient to withstand the insulation method of fixing with a nail. Moreover, the asphalt waterproof sheet made by impregnating the above non-woven fabric with polymer-modified asphalt is fixed with nails via a circular holding member with a diameter of 40 mm.
It is even larger at 38kgf and is safe enough.

The laminated structure of the waterproof sheet obtained by laminating asphalt on the nonwoven fabric used in the present invention is not particularly limited. For example, an asphalt layer in which silica sand or flat crushed stone is bonded on the top layer, and a second layer There may be a layer made of a polyester nonwoven fabric, a third layer having an asphalt layer, and a lowermost layer having a polyolefin film for preventing adhesion. The uppermost layer and the third layer of asphalt are impregnated in the second layer made of the polyester nonwoven fabric. The top and third layers of asphalt may be the same or different. The lowermost polyolefin film may have slits, may have cut holes of various shapes and sizes, or may be a film without any processing. The thickness of the entire waterproof sheet is 1.0 mm to 10.0 mm, preferably 1.5 mm to 8.
0 mm. The unit weight of a waterproof sheet having such a structure and thickness is relatively heavy at 1.2 kg / m ² to 12.0 kg / m ² , and has a feature that it is not easily blown off by wind.

The locking member used in the present invention comprises a head having an area, a portion penetrating through the waterproof sheet, and a portion anchoring to the waterproof base. Specifically, a nail, a bolt, a screw bolt, a bolt with a plug or an expansion Refers to bolts and the like (sometimes simply referred to as nails).

The holding member used in the present invention is a member for enlarging the head area of the locking member, protecting the locking member from an impact when the locking member is driven into the surface of the waterproof sheet, and also ensuring the fixing. The holding member is usually made of metal or plastic and is a circular or square plate having a diameter or a side length of 20 mm to 60 mm, or a rectangular plate having a short side length of 20 mm to 60 mm. Preferably, it is perforated. If the diameter of the holding member, the length of one side or the short side is shorter than 20 mm, the nail tear strength is insufficient and the effect of preventing impact is also insufficient. If the length exceeds 60 mm, the overlapping width of the waterproof sheet becomes large, which is uneconomical.

The fixing method using the locking member is not particularly limited, but it is preferable that the fixing member is placed on the waterproof sheet, penetrates the waterproof sheet through the hole of the waterproof sheet, and is driven to anchor on the waterproof base.

In the method of the present invention, a heat insulating sheet such as polystyrene, polyethylene, or polyurethane can be laid between the waterproof sheet and the waterproof base. The thickness of these insulation sheets
Those having a range of 5 mm to 50 mm are preferably used.

In the method of the present invention, the waterproof base is not particularly limited, and can be applied to concrete, mortar, ALC, wood, and the like.

The fixing interval by the locking member is determined by the following method. That is, the wind pressure of Chapter 3, Article 87 of the Enforcement Order of the Building Standards Act was set under standard conditions, and the wind pressure was determined near the parapet and in a flat field, and this was divided by the pull-up breaking strength of the waterproof sheet per locking member. The value is the maximum interval for fixing with the locking member. Pull-up rupture strength is the rupture strength when the other end of the sheet with one end fixed is pulled up in the perpendicular direction, but since the force in the initial stage of peeling acts in the lateral direction,
It is safer to use nail tear strength.

 For example, the wind pressure can be calculated by the following equation.

Wind pressure = Wind coefficient x Wind pressure Here, assuming the rooftop of a building with a height of 30 m, the wind coefficient is 1.5 near the parapet and 0.5 for flat ground. The wind pressure is 280 from the height of the building 30m. Thus the wind pressure becomes wind pressure = 0.5 × 280 = 140kgf / m 2 of the wind pressure = 1.5 × 280 = 420kgf / m 2 Hiraba near parapet.

If the nail tear strength of the waterproof sheet is 140 kgf / piece, the number of locking members necessary for fixing the 1 m ² waterproof sheet is: near parapet 420/140 = 3.0 pieces / m ² Plain field 140/140 = 1.0 pieces / m ² Therefore, if the waterproof sheet is 1m wide, the interval may be 33cm near the parapet and 100cm in the flat place.

With respect to the waterproof sheet of the first row fixed in this way, the waterproof sheet of the second row is formed such that one end on the long side thereof can sufficiently cover the locking member and the holding member to which the waterproof sheet of the first row is fixed. Are overlapped, and the ends of both waterproof sheets are joined to each other, that is, the overlapping portions are joined. The joining method used is hot air heat fusion, which is melted and bonded by hot air heated by electricity, torch heat fusion, which is rapidly melted and bonded by torch heating, or bonding using a solvent type, reactive type or hot melt type adhesive. Can be In either case, joining can be performed manually or automatically. In particular, since an automatic joining machine can be used, there is an advantage that joining work can be saved and work efficiency is improved.

[Examples] Next, the present invention will be described in more detail with reference to examples, but the present invention is not limited to these examples unless departing from the gist of the present invention.

[Example 1] Straight asphalt (with a nail penetration of 50, Nippon Oil Corporation)
100 parts by weight), 20 parts by weight of a styrene-butadiene copolymer (trade name; Kariflex TR1116, manufactured by Shell Chemical Co., Ltd.) and 5 parts by weight of polyethylene (trade name, Staphrene E792, manufactured by Nippon Petrochemical Co., Ltd.) Polymer-modified asphalt made of polyester nonwoven fabric (Toyobo Co., Ltd.
Product name: Bolans 4187P, weight per unit area 180g / m ² , longitudinal tear strength 1.0kgf) impregnated and laminated, No. 5 silica sand adhered on top, 10μm polyethylene film laminated on bottom and width
A waterproof sheet 1 having a thickness of 1.0 m, a thickness of 3.0 mm, and a unit weight of 3.4 kg / m ² was obtained. The waterproof sheet had a nail tearing strength of 12 kgf and the same strength when fixed via a galvanized steel sheet having a diameter of 50 mm was 35 kgf.

This waterproof sheet 1 was used for renovation work on the roof of a concrete building that leaked rain. Remove the puddles on the waterproof substrate after the rain, and leave the above-mentioned waterproof sheet in a still wet state, as shown in FIG. One end (end wrap) of the short side (width) was overlapped by 15 cm. Turn up with the left side wrap down and the right side wrap up, drill a hole with a diameter of 5.3 mm and a depth of 35 mm through the waterproof base at a position 2.5 cm from the left end of the left side wrap. Was. A galvanized steel plate with a diameter of 50 mm and a thickness of 1 mm is placed over these holes, and a carbon steel diameter of 5 mm and a length of 30 mm.
It was inserted and fixed through a pre-drilled hole of a steel plate of a bolt 2 with a plug of 2 mm (locking member). Similarly, the end wrap was fixed with nails as shown in FIG. As described above, the fixing interval with the nail was 50 cm in the flat field, and 17 cm in the vicinity of the parapet.

The right side wrap, which had been turned up, was returned to its original position and superimposed, and joined as shown in FIG. 2 (joining portion 4) using an automatic hot air fusion machine (Leister variant type manufactured by Karl Leister).

The perimeter of the roof, the surroundings of the role, and the rising portion were joined with the waterproof sheets and bonded with the waterproof base using a manual fusing machine (Leister Combi Triac type manufactured by Karl Leister). Further, a deaeration tape into which a fine pipe was inserted was partially installed in the rising portion. A silver top coat was applied and finished on the waterproof sheet after construction. Six months after the construction, it swelled, there was no water leakage, and the beautiful appearance immediately after the construction was maintained.

Example 2 100 parts by weight of straight asphalt (same as in Example 1), 15 parts by weight of atactic polypropylene (softening point: 162 ° C., manufactured by Mitsui Toatsu Chemicals, Inc.), ethylene-vinyl acetate copolymer (vinyl acetate) 25% content, MFR value 2, manufactured by Mitsui Dupont Chemical Co., Ltd., trade name: Evaflex EV360) 1
A polymer-modified asphalt consisting of 0 parts by weight is a polyester non-woven fabric (manufactured by Toyobo Co., Ltd., trade name: Volans 4252)
P, weight per unit 230g / m ² , longitudinal tear strength 3.0kgf), impregnated and laminated with No. 5 silica sand on top, 10μm polyethylene film laminated on the bottom, width 1.0m, thickness 4.0mm, A waterproof sheet 1 having a unit weight of 4.4 kg / m ² was obtained. This sheet had a nail tear strength of 23 kgf and the same strength when fixed via a galvanized steel sheet having a diameter of 50 mm was 60 kgf. This waterproof sheet was waterproofed on a newly constructed roof in the same manner as in Example 1. Nine months after the construction, it swelled, there was no water leakage, and the beautiful appearance immediately after the construction was maintained.

[Example 3] Instead of the polyester nonwoven fabric of Example 1 (basis weight 180 g / m ² ), a polyester nonwoven fabric with a basis weight 40 g / m ² (manufactured by Toray Industries, Inc., trade name Axter B504-10, longitudinal tear strength)
A waterproof sheet was prepared in the same manner as in Example 1 using 3.0 kgf). The waterproof sheet had a nail tear strength of 2.2 kgf and the same strength when fixed through a galvanized steel plate having a diameter of 50 mm was 4.6 kgf, and the strength decreased according to the basis weight of the nonwoven fabric.

Example 4 The waterproof sheet of Example 1 was fixed with the same bolts with plugs as in Example 1 via a 15 mm diameter retaining plate. The nail tearing strength through the holding plate was 14 kgf, and the increase in strength was less than when the holding plate was not used.

[Example 5] Example 1 polyester nonwoven fabric (basis weight 180 g / m ²⁾
In place of the above, a waterproof sheet was prepared in the same manner as in Example 1 using a nonwoven fabric made of polyester having a basis weight of 600 g / m ² (manufactured by Toyobo Co., Ltd., trade name: Borans 4585P, longitudinal tear strength: 12.5 kgf). Although the obtained waterproof sheet had sufficient strength, it was inflexible and poor in workability.

Comparative Example 1 A waterproof sheet was prepared in the same manner as in Example 1 except that a woven cloth made of polyester (Kyosha ES-1400, manufactured by Toyobo Co., Ltd.) was used instead of the nonwoven fabric of Example 1. The waterproof sheet had a nail tearing strength of 1.3 kgf, but the waterproof sheet moved easily, the nail hole became large, and it could not be fixed substantially.

[Comparative Example 2] A cold-woven gauze made of polyester woven fabric of Comparative Example 1 (ES-3000, manufactured by Toyobo Co., Ltd.) was used, but this waterproof sheet can also be fixed substantially as in Comparative Example 1. Did not.

[Effects of the Invention] According to the sheet waterproofing method of the present invention, waterproofing can be performed by an insulating method using an inexpensive asphalt-based waterproofing sheet. For this reason, compared with the close contact method which is a general construction method of the same type of waterproof sheet, no skill is required, the drying and curing time of the waterproof base is shortened, and the working efficiency is greatly improved. Since the waterproof sheet obtained by laminating asphalt on the nonwoven fabric used in the present invention has a lower heat-sealing temperature and a smaller pressure load than the chlorinated polyethylene waterproof sheet used in the conventional insulation method, it is easier to join the waterproof sheets to each other. Also, the construction period can be shortened as compared with the insulation construction method using a chlorinated polyethylene waterproof sheet.

[Brief description of the drawings]

FIG. 1 is a specific example showing how to arrange waterproof sheets. FIG. 2 is a specific example showing a fixing method and a joining method of the waterproof sheet by the locking member. 1: Asphalt tarpaulin 2: Locking member 3: Holding member 4: Joint

Claims (7)

(57) [Claims] An end of a waterproof sheet obtained by impregnating and laminating a non-woven fabric with a polymer-modified asphalt is fixed to the waterproof base with a locking member for fixing the waterproof sheet to the waterproof base, and another adjacent waterproof sheet is provided. The one end of the sheet is laminated so as to cover the locking member, and the laminated surfaces of the sheets are joined to each other. 2. The sheet waterproofing method according to claim 1, wherein the non-woven fabric is made of polyester fiber and has a basis weight in a range of 50 g / m ² to 400 g / m ² . 3. The sheet waterproofing method according to claim 1, wherein the fixing method by the locking member is a method of locking via a holding member. 4. The holding member is made of metal or plastic and is a circle or a square having a diameter or a side length of 20 to 60 mm, or a rectangle having a short side of a length of 20 to 60 mm. The sheet waterproofing method according to any one of Items 1 to 3. 5. The sheet waterproofing method according to claim 1, wherein the joining method is adhesion by heat fusion. 6. The sheet waterproofing method according to claim 1, wherein the thickness of the waterproof sheet is in a range of 1.0 mm to 10.0 mm. 7. The unit weight of the waterproof sheet is from 1.2 kg / m ² to 1 kg.
Sheet waterproofing method according to any one of claims the first to sixth paragraph, characterized in that in the range of 2.0 kg / m ^2.