JP3313210B2 - Adhesive waterproof rubber - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a sticky waterproof rubber applied to a concrete joint of a building.

[0002]

2. Description of the Related Art Conventionally, for example, in the case of building a basement of a building, when a construction zone boundary is set up, divided into 1 ward, 2 wards, 3 wards, etc. and concrete is poured, groundwater generated at the junction of the construction zone boundaries is laid. In order to prevent infiltration, a molded waterproof rubber plate has been used.

[0003] The molded waterproof rubber plate has been provided by a method of attaching to a surface of a soil H steel via an adhesive or attaching with a metal fitting. FIG. 3 shows a concrete joint surface 2 formed by the molded waterproof rubber plate 1 thus provided. In the figure, reference numeral 3 denotes a soil column.

[0004] Since the molded waterproof rubber plate 1 is excellent in preventing water permeation on the concrete joining surface 2, infiltration of groundwater can be reliably prevented.

[0005]

However, since this type of molded waterproof rubber plate has a belt-like shape, there are difficulties in storage management and handling.

Also, as described above, since the concrete joining portion must be attached with an adhesive or metal fittings, the weight of the molded waterproof rubber plate imposes a load on the bonding interface. There is a drawback that there is a risk of falling off by then.

[0007] For this reason, it takes time and effort to manage the situation and repair work after the molded waterproof rubber plate is attached, and it has been difficult to repair 100%. Furthermore, when mounting on the soil H steel surface, there was a drawback that the waterproofness around them could not be secured by a preceding mounting member such as a separate fitting mounted on the soil H steel surface.

SUMMARY OF THE INVENTION The present invention has been made to solve the above-mentioned conventional problems, and has as its object to provide good storage management and handling properties, there is no risk of falling off, and the situation management after attaching a waterproof rubber. Another object of the present invention is to provide an adhesive water-stop rubber which eliminates repair work and is not affected by the preceding mounting member.

[0009]

According to a first aspect of the present invention, there is provided a pressure-sensitive adhesive waterproof rubber comprising 25 to 28% by weight of butyl rubber, 3 to 4% by weight of a pressure-sensitive adhesive composed of pine oil or process oil, phthalic acid ester or phosphorus. Plasticizer consisting of acid ester
8 to 1.2% by weight, 4 to 6% by weight of an adhesive composed of a rosin or alkyd resin, 2.5 to 3.5% by weight of a heat-resistant stabilizer composed of a phenol resin, and an aromatic hydrocarbon composed of toluene 34 -38% by weight and 0.15-0.25% by weight of a surfactant comprising polyethylene glycol monolaurate or polyethylene glycol diester
If, phenylnaphthylamine or tetra-methylthiazol-back <br/> consisting Mujisarufaido Antioxidant 0.25-0.3
5% by weight, 5% by weight of titanium oxide, 5% by weight of zinc white, 85% by weight of calcium carbonate, and 19 to 28% by weight of a reinforcing agent composed of 5% by weight of fine silica powder, and has a viscosity of slump (JIS A5757). 30 ° C for 24 hours)
m or less.

[0010]

In the present invention, butyl rubber having a molecular weight of about 300,000 and an unsaturation of 0.4 to 0.6 mol% is used. Examples of the butyl rubber include an isobutylene / isoprene copolymer, chlorinated butyl, and the like.

If the content of butyl rubber is less than 25% by weight, the elastic tackiness decreases. On the other hand, if the content of butyl rubber exceeds 28% by weight, the merit is reduced in terms of cost. Examples of the adhesive include pine oil and process oil. The pressure-sensitive adhesive is intended to exert a softening effect of butyl rubber and improve the pressure-sensitive adhesive performance.

If the pressure-sensitive adhesive is less than 3% by weight, rubber elasticity cannot be sufficiently exhibited. On the other hand, when the amount of the adhesive exceeds 4% by weight, the elastic strength is impaired. Examples of the plasticizer include phthalic acid esters and phosphoric acid esters. The plasticizer is intended to stabilize the elastic performance and to improve the workability of the familiar application to the adherend.

If the amount of the plasticizer is less than 4% by weight, the elasticity cannot be stabilized. If the amount of the plasticizer exceeds 6% by weight, the original rubber elastic strength cannot be obtained. Examples of the adhesive include rosin and alkyd resin. The adhesive has good compatibility with butyl rubber and enhances adhesive performance.

If the amount of the adhesive is less than 4% by weight, the effect of enhancing the adhesive performance cannot be exhibited. If the amount of the adhesive exceeds 6% by weight, rubber elasticity becomes slightly hard. As a heat stabilizer,
There are phenolic resins. The adhesive water-stop rubber is exposed to sunlight during the underground construction and may be subjected to heat transfer during welding work. Therefore, the heat-resistant stabilizer imparts heat resistance.

If the amount of the heat stabilizer is less than 2.5%, the heat resistance becomes insufficient. On the other hand, when the amount of the heat stabilizer exceeds 3.6% by weight, rubber elasticity is suppressed and the rubber becomes hard. The butyl rubber, the pressure-sensitive adhesive, the plasticizer, the adhesive and the heat stabilizer are dissolved using an aromatic hydrocarbon as a solvent. The aromatic hydrocarbon includes toluene. Apart from the function as a solvent, this aromatic hydrocarbon has a function of having good compatibility with a wet surface such as a soil H steel surface in a joint portion of concrete.

The reason why the mixing ratio of the aromatic hydrocarbon was set to 34 to 38% by weight was determined as a range in which waterproofing with butyl rubber could be completed. 34% by weight of aromatic hydrocarbon
Below, for example, when applying to the soil H steel surface,
It does not fit according to Yamadome mortar uneven surface. When the amount of the aromatic hydrocarbon exceeds 38% by weight, a slump occurs,
A predetermined coating thickness of 3 to 5 mm cannot be obtained.

In addition, there are benzene and the like in addition to toluene.
It cannot be used for the purpose of the present invention. As a surfactant,
Examples include polyethylene glycol monolaurate and polyethylene glycol distearate. Since the adhesive water-stop rubber of the present invention is a synthesis of various materials, the surfactant is suitable for compatibility between the compatibility of the entire material and the wetness and small amount of water droplets during construction. .

When the amount of the surfactant is less than 0.15% by weight, the compatibility is insufficient. On the other hand, if the surfactant content exceeds 0.25% by weight, the adhesion performance is impaired. As anti-aging agents,
Phenyl naphthyl amines, tetramethyl Ji U Lambsey sulfide and the like. The antioxidant is added in order to obtain stable physical properties and durability for many months.

If the amount of the antioxidant is less than 0.25% by weight, it is not possible to obtain stable physical properties and durability for many months. If the amount of the antioxidant exceeds 0.35% by weight, the performance is not improved.

As the reinforcing agent, 5% by weight of titanium oxide and
A composition comprising 5% by weight of zinc white, 85% by weight of calcium carbonate, and 5% by weight of fine powder silica was used. 1 reinforcing agent
If it is less than 9% by weight, the reinforcing effect is poor. Also, if the reinforcing agent is 2
If it exceeds 0% by weight, both the rubber elasticity and the adhesiveness will be impaired.

The viscosity of the adhesive waterproof rubber according to the present invention is slump (30 ° C., 24 hours according to JIS A5757).
Used as 3 mm or less. If the slump exceeds 3 mm, the coating film may hang. The lower limit is desirably about 1 mm. If it is less than 1 mm, it is too hard to apply.

[0023]

The construction method in which the adhesive waterproof rubber according to the present invention is used for a joint of concrete in a basement building,
A description will be given based on FIG. 1 and FIG.

As shown in FIG. 1, of the plurality of H steel surfaces 11 exposed from the soil column 10, the H steel surface 11A corresponding to the construction boundary connecting surface 12 is provided with the adhesive waterproof rubber according to the present invention. Is applied at a thickness of about 5 kg / m ² with a wooden spatula to form an adhesive waterproof rubber layer 13.

At this time, since the soil surface is a basement building, the soil surface may be wet depending on the location or may be wet with groundwater. In response to these conditions, the water-wetted surface is made of a waste cloth containing an aromatic hydrocarbon. To remove water, and apply the adhesive water-stop rubber according to the present invention thereon.

As described above, the H steel surface 11A is wiped with the rag containing the aromatic hydrocarbon (toluene), and then the adhesive waterproof rubber according to the present invention is applied. Good compatibility with hydrocarbons and completes adhesion.

If there is a previously attached member such as a separate metal fitting on the H steel surface 11A, it is carefully applied around the member. Then, according to a conventional method, as shown in FIG.

As a result, the adhesive water-stop rubber layer 13 formed on the H steel surface 11A corresponding to the construction zone joint surface 12 is
Water can be reliably stopped between the construction zone boundary connection surface 12 and the soil column 10.

In the above construction method, a case where the invention is applied to prevent intrusion of groundwater generated at the joint of the construction zone of the basement building of the building has been described. However, the present invention is not limited to this, and the present invention is not limited to this. It can be applied to the waterproof structure at the joint of concrete.

[0030]

【Example】

Example 1 27% by weight of isobutylene / isoprene copolymer (molecular weight: 300,000, unsaturated amount: 0.6 mol%) was converted to 18% by weight of toluene
Melted in.

5% by weight of pine oil was dissolved in 1% by weight of toluene. 1% by weight of phthalic acid ester was dissolved in 2% by weight of toluene. 5% by weight of rosin was dissolved in 5% by weight of toluene. 3% by weight of a phenol resin was dissolved in 8% by weight of toluene.

Next, the isobutylene-isoprene copolymer, pine oil, phthalic acid ester and rosin each dissolved in toluene as described above were mixed. To this mixture, 0.2% by weight of polyethylene glycol monolaurate, 0.3% by weight of phenylnaphthylamine, and 24.5% by weight of a reinforcing agent were added and mixed. Here, the reinforcing agent is composed of 5% by weight of titanium oxide, 5% by weight of zinc white, and 85% of calcium carbonate.
% By weight and 5% by weight of finely divided silica.

The appearance of the obtained mixture was a viscous paste. According to JIS A5757,
1.1. The solid content was 70.5% according to JIS K6839.

According to JIS K2530, the penetration is as follows:
It was 280 ± 10 at 100 g of cone and 5 seconds. According to JIS A5757, slump is 30
At 24 ° C. for 24 hours.

The low-temperature characteristics did not freeze at -30 ° C. for 24 hours. Next, a molded sample (based on a dumbbell-shaped No. 3 of JIS K6301, a width of a parallel portion of 5 mm and a length of a parallel portion of 20 m) was obtained using the obtained mixture.
m, the thickness of the parallel portion is 3 mm or less, and the mark length is 20 mm).

The tensile strength was measured according to JIS 72 hours after drying.
According to K6301, 0.8kg / cm with No. 3 dumbbell
^{Was 2} . The elongation rate was measured according to JIS K 72 hours after drying.
According to 6301, it was over 600% with the No. 3 dumbbell.

Example 2 26.4% by weight of an isobutylene / isoprene copolymer (molecular weight: 300,000, unsaturated amount: 0.6 mol%) was added to toluene.
Melted at 6% by weight.

5% by weight of pine oil was dissolved in 1% by weight of toluene. 1% by weight of phthalic acid ester was dissolved in 2% by weight of toluene. 5% by weight of rosin was dissolved in 5% by weight of toluene. 3% by weight of a phenol resin was dissolved in 8% by weight of toluene.

Next, the isobutylene-isoprene copolymer, pine oil, phthalic acid ester and rosin each dissolved in toluene as described above were mixed. To this mixture, 0.2% by weight of polyethylene glycol monolaurate, 0.3% by weight of phenylnaphthylamine, and 21.5% by weight of a reinforcing agent were added and mixed. Here, the reinforcing agent is composed of 5% by weight of titanium oxide, 5% by weight of zinc white, and 85% of calcium carbonate.
% By weight and 5% by weight of finely divided silica.

The same results as in Example 1 were obtained from the obtained mixture.

[0041]

As described above, in the adhesive water-blocking rubber according to the present invention, since the main component such as butyl rubber is dissolved by the aromatic hydrocarbon, the coated surface may be wet or wet with groundwater. Even so, it is possible to apply the coating reliably due to the compatibility with the aromatic hydrocarbon.

The adhesive water-stop rubber according to the present invention is a non-mold rubber as compared with a conventional molded water-stop rubber plate. Situation management and repair work are not required, and it is possible to reliably apply the coating without being affected by the preceding mounting fixing member at the joint portion of the concrete, and it is possible to secure highly accurate water stoppage. .

Further, since the adhesive water-stop rubber according to the present invention has a viscosity of 3 mm or less, it can be easily applied and there is no danger of the coating film dripping.

[Brief description of the drawings]

FIG. 1 is an explanatory view showing a construction example using an adhesive water-stop rubber according to the present invention.

FIG. 2 is an explanatory view showing a joint of concrete in a building using the adhesive water-stop rubber according to the present invention.

FIG. 3 is an explanatory view showing a concrete joint part of a building using a conventional molded waterproof rubber plate.

[Explanation of symbols]

 DESCRIPTION OF SYMBOLS 10 Soil pillar row 11 H steel surface 11A H steel surface 12 Construction section boundary surface 13 Adhesive waterproof rubber layer

──────────────────────────────────────────────────続 き Continued on the front page (51) Int.Cl. ⁷ Identification code FI E04B 1/66 E04B 1/66 B // (C08K 13/02 (C08K 13/02 5:01 5:01 3:22 3: 22 3:36) 3:36) (58) Field surveyed (Int. Cl. ⁷ , DB name) C08L 23/00-23/36 C08K 3/00-13/08 C09K 3/10 E02B 3/16 E02D 29/16 E04B 1/66

Claims (1)

(57) [Claims] 1. 25 to 28% by weight of butyl rubber, 3 to 4% by weight of an adhesive comprising pine oil or process oil,
0.8 to 1.2% by weight of a plasticizer composed of a phthalic acid ester or a phosphoric acid ester, 4 to 6% by weight of an adhesive composed of a rosin or an alkyd resin, and 2.5 to 3. and 5 wt%, an aromatic hydrocarbon 34 to 38% by weight of toluene, and a surfactant from 0.15 to 0.25 wt% of polyethylene glycol monolaurate or polyethylene glycol diesters, phenylnaphthylamine or tetra-methylthiazole Antioxidants consisting of uramdisulfide 0.25-0.
35% by weight, 5% by weight of titanium oxide, 5% by weight of zinc white, 85% by weight of calcium carbonate, and 19 to 28% by weight of a reinforcing agent composed of 5% by weight of fine silica powder, and has a viscosity of slump (JIS A5757). 30 ° C, 24 hours)
mm or less.