JP2016017298A - Waterproofing method for concrete slab, and waterproof construction of concrete slab - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a waterproofing method for a concrete slab, which enables construction to be performed in a short period of time even at a low temperature, while repair and waterproofing of the concrete slab are concurrently performed.SOLUTION: A waterproofing method for a concrete slab includes the steps of: forming a permeation-type waterproof layer 2 by applying an acrylic radical hardening resin onto a surface of the concrete slab 1; and forming a heated asphalt coating film-based resin layer 3 by applying a heated asphalt coating film-based resin onto the permeation-type waterproof layer 2 and hardening it. In the acrylic radical hardening resin, viscosity at 5°C is 300 mPa s or less.SELECTED DRAWING: Figure 1

Description

  The present invention relates to a method for waterproofing concrete floor slabs and a waterproof structure for concrete floor slabs.

  In concrete floor slabs used for roads, bridges, etc., cracks may be generated by repeatedly receiving a load, earthquake, wind and rain for a long period of time.

  When rainwater enters the cracks thus generated, the concrete slab further deteriorates.

  Therefore, as a technique for preventing such deterioration of the concrete floor slab, Patent Document 1 discloses a resin adhesive layer made of an epoxy resin adhesive that is hardened in a state where a resin adhesive is applied to and infiltrated into the concrete floor slab. And a technology for forming a waterproof layer on a concrete floor slab composed of an asphalt coating film applied and cured on the resin adhesive layer. In the technique described in Patent Document 1, an epoxy resin adhesive having a viscosity at 20 ° C. of 2500 mPa · s or less is used as the epoxy resin adhesive.

  Further, Patent Document 2 discloses that gravel is dispersed on an acrylic radical curable liquid resin composition that is impregnated into a concrete slab and then descends to form a waterproof layer integrated with the slab, and is heated and applied. A concrete floor slab waterproofing method for forming an asphalt waterproofing material is described. Also in the technique described in Patent Document 2, an acrylic radical curable resin having a viscosity at 20 ° C. of 2000 mPa · s or less is specifically used as the viscosity at the time of application.

JP 2008-57119 A JP 2007-85013 A

  However, the techniques described in Patent Documents 1 and 2 have low viscosity in a warm climate of 20 ° C. and are excellent in application property and infiltration property to a concrete slab, but low temperatures such as in winter and cold districts. When used when performing construction under the circumstances, there is a problem that the viscosity becomes high and sufficient application and infiltration to the concrete slab cannot be performed.

  Therefore, it is preferable to have a waterproof structure and a waterproof method that have a sufficiently low viscosity even during construction under low temperature conditions and can sufficiently apply and infiltrate a concrete floor slab.

  Therefore, the present invention has been devised in view of the above-mentioned problems, and it exhibits good applicability to concrete floor slabs and permeability to cracks even under low temperature conditions such as winter and cold districts. An object of the present invention is to provide a waterproof method for concrete floor slabs and a waterproof structure for concrete floor slabs.

  A first invention is a method for waterproofing concrete floor slabs, the step of applying an acrylic radical curable resin to the surface of a concrete floor slab to form a penetration type waterproof layer, and heating asphalt on the penetration type waterproof layer A step of applying and curing a coating film resin to form a heated asphalt coating film resin layer, wherein the acrylic radical curable resin has a viscosity at 5 ° C. of 300 mPa · s or less. To do.

  According to a second invention, in the first invention, an acrylic radical curable resin containing a methyl methacrylate cross-linking acrylic resin and an epoxy acrylate resin is used as the acrylic radical curable resin.

  The third invention is a waterproof structure of a concrete floor slab, wherein the penetration waterproof layer made of an acrylic radical curable resin having a viscosity at 5 ° C. of 300 mPa · s or less formed on the surface of the concrete floor slab, And a heated asphalt coating resin layer formed on the surface of the permeable waterproof layer.

  According to a fourth invention, in the third invention, the acrylic radical curable resin contains a methyl methacrylate cross-linking acrylic resin and an epoxy acrylate resin.

  According to the present invention having the above-described configuration, it is possible to exhibit good applicability to concrete slabs and permeability to cracks even under low temperature conditions, and deterioration of concrete slabs even when constructed under low temperature conditions. It can be effectively prevented.

It is a vertical side view which shows the waterproof structure of the concrete floor slab which concerns on embodiment of this invention. It is a vertical side view which shows the modification of the waterproof structure of the concrete floor slab which concerns on this invention.

  Hereinafter, the waterproof structure of the concrete floor slab according to the embodiment of the present invention will be described in detail.

  FIG. 1 is a longitudinal side view showing a waterproof structure of a concrete floor slab according to an embodiment of the present invention.

  The waterproof structure of a concrete floor slab according to the present embodiment is composed of a permeation type waterproof layer 2 formed on the surface of the concrete floor slab 1 and a heated asphalt paint film resin layer 3 formed on the permeation type waterproof layer 2. It is configured.

  The permeable waterproof layer 2 is made of an acrylic radical curable resin.

  Acrylic radical curable resins are usually composed mainly of acrylic monomers, which are acrylic acid, methacrylic acid, esters thereof, and derivatives thereof, such as hydroxyl groups, acid groups, N-methylol groups, and unsaturated groups. It is a thermosetting resin containing a reactive functional group. In the present invention, the acrylic resin includes an epoxy acrylate resin and various modified products.

  Among such acrylic resins, methyl methacrylate cross-linking acrylic resin and epoxy acrylate resin are preferable. As described in JP-A-10-88820, an acrylic resin containing a methyl methacrylate cross-linking acrylic resin and an epoxy acrylate resin can be used as a concrete surface even when constructed in a low temperature environment or a wet environment. While exhibiting excellent adhesiveness with the permeable waterproof layer, construction can be performed in a short time.

  In the present embodiment, among these acrylic radical curable resins, those having a viscosity at 5 ° C. of 300 mPa · s or less are used.

  The reason why the viscosity at 5 ° C. of the acrylic radical curable resin is limited to 300 mPa · s or less is to make it easy to penetrate from the surface of the concrete slab 1 to the inside or into the narrow crack even in a low temperature environment. This is for enhancing the effect of improving the waterproof property and the durability of the floor slab by the penetration type waterproof layer 2.

  Specific examples of such acrylic radical curable resins include “Primer P100” manufactured by DIC Corporation.

  The heated asphalt paint film-type resin layer 3 is a waterproof layer made of an asphalt paint film waterproofing material that is heated and melted and applied to the surface of the permeable waterproof layer 2 on the surface of the concrete floor slab 1.

  Next, a method for forming the above-described penetration type waterproof layer 2 and heated asphalt coating resin layer 3 on the concrete floor slab 1 will be described.

  First, an acrylic radical curable resin is applied to the surface of the concrete slab 1. At this time, a blasting process or the like may be performed on the surface of the concrete floor slab 1.

  The application of the acrylic radical curable resin can be performed by various methods such as spraying in addition to a method using a brush or a roller. By this application, the acrylic radical curable resin penetrates the surface and cracks of the concrete floor slab 1.

  Next, by leaving for a predetermined time (several tens of hours to several hours), the acrylic radical curable resin is cured in a state where the acrylic radical curable resin has permeated into the surface and cracks of the concrete floor slab 1 to form the permeable waterproof layer 2. .

  Next, the asphalt coating waterproof material is heated and completely dissolved, and then applied onto the permeable waterproof layer 2. This application is performed using a brush, a gold trowel heated by a burner, or the like.

  Next, the applied asphalt coating film waterproofing material is allowed to stand for a predetermined time (several minutes), whereby the asphalt coating film waterproofing material is cured and the heated asphalt coating film resin layer 3 is formed.

  Thus, the waterproof structure of the concrete floor slab 1 is formed by forming the permeation type waterproof layer 2 and the heated asphalt coating resin layer 3 on the concrete floor slab 1.

  Table 1 shows the evaluation results on the performance of the waterproof structure formed in this way.

  The evaluation results shown in Table 1 show that the penetration structure and workability at 5 ° C. of the waterproof structure using “Primer P100” manufactured by DIC Corporation as the acrylic radical curable resin according to this embodiment for the penetration waterproof layer 2. Is evaluated.

  The penetration performance test was performed according to the test method for NEXCO crack impregnated material, and the bending strength and the penetration area were determined.

  The workability evaluation is ○, when it is possible to apply a heated asphalt coating waterproofing material one hour after applying an osmotic waterproofing material at 5 ° C, and to apply a heated asphalt coating waterproofing material. The case where it was △ and the case where it was not made at all were marked with ×.

  In Comparative Example 1, an osmotic waterproof layer was formed using “Deck Coat N” manufactured by Denki Kagaku Kogyo Co., Ltd. as an acrylic radical curable resin, and a waterproof structure was formed in the same manner as in Example 1 under other conditions. The evaluation results are shown.

  Comparative Example 2 shows the evaluation results when a waterproof structure is formed in the same manner as in Example 1 except that “ADOX1380W” manufactured by Nippon Adox Co., Ltd., which is an epoxy resin, is used instead of the penetration type waterproof layer. ing.

  From the results shown in Table 1, the waterproof structure using the acrylic radical curable resin having a viscosity at 5 ° C. of 18 mPa · s according to this embodiment is compared with Comparative Examples 1 and 2 in bending strength and penetration area. In addition, it can be seen that both the construction property and the workability are excellent.

  Thereby, the waterproof structure of the concrete floor slab 1 according to the present embodiment can exhibit good applicability to the concrete floor slab 1 and permeability to cracks even under low temperature conditions. However, it turns out that deterioration of the concrete slab 1 can be effectively prevented.

  In addition, this invention is not restricted to the aspect which concerns on embodiment mentioned above, The penetration type waterproof layer 2 formed in the surface of the concrete floor slab 1, and the heating asphalt coating-type resin formed on the penetration type waterproof layer 2 As long as the layer 3 is provided, other different configurations can be adopted.

  FIG. 2 is a longitudinal side view showing a modification of the waterproof structure of the concrete floor slab according to the present invention.

  The waterproof structure shown in FIG. 2 is used when a road is formed on the concrete slab 1. In addition to the permeation type waterproof layer 2 and the heated asphalt paint film resin layer 3 which are the waterproof structures according to the above-described embodiments, this waterproof structure is further provided with a silica sand layer 4 on the surface of the heated asphalt paint film resin layer 3. , A dense asphalt mixture layer 5, a tack coat layer 6 and a porous asphalt mixture layer 7.

  The silica sand layer 4 is formed by spraying silica sand and exhibits a function of improving the adhesion between the heated asphalt coating resin layer 3 and the dense particle size asphalt mixture layer 5.

  The dense particle size asphalt mixture layer 5 is a durable asphalt mixture layer.

  The tack coat layer 6 exhibits a function of improving the adhesion between the dense particle size asphalt mixture layer 5 and the porous asphalt mixture layer 7.

  The porous asphalt mixture layer 7 is a porous layer excellent in drainage.

  Even with such a waterproof structure, it is possible to exhibit good applicability to the concrete floor slab 1 and penetration to cracks even under low temperature conditions, and effectively deteriorate the concrete floor slab 1 even when constructed under low temperature conditions. Can be prevented.

  In the method for waterproofing a concrete floor slab of the present invention, it is preferable to apply a volatile organic solvent before applying an acrylic radical curable resin to the surface of the concrete floor slab. The volatile organic solvent is an organic solvent having a boiling point of 150 ° C. or lower under normal pressure and a liquid at 20 ° C.

  Specific examples include methanol, ethanol, 1-propanol, 2-propanol, acetone, methyl ethyl ketone, tetrahydrofuran, diethyl ether, diisopropyl ether, hexane, toluene, chloroform, ethyl acetate, thinners, and the like. Among these, acetone having excellent volatility is preferable.

  In the method for waterproofing concrete floor slabs of the present invention, the volatile organic solvents described above can be used alone or in appropriate combination of two or more.

  When a volatile organic solvent is applied to the surface of the concrete slab, dust and the like existing inside the cracks are removed, and when the acrylic radical curable resin is applied, the acrylic radical curable resin penetrates into the cracks. Become more certain.

  Moreover, since it becomes easy to confirm the crack which has generate | occur | produced in the concrete slab by apply | coating a volatile organic solvent, it becomes a standard which judges the application quantity of acrylic type radical curable resin.

DESCRIPTION OF SYMBOLS 1 Concrete floor slab 2 Penetration type waterproof layer 3 Heated asphalt coating resin layer 4 Silica sand layer 5 Dense particle size asphalt mixture layer 6 Tack coat layer 7 Porous asphalt mixture layer

Claims (4)

Applying an acrylic radical curable resin to the surface of the concrete floor slab to form a permeable waterproof layer;
A step of applying a heated asphalt coating film-based resin on the permeable waterproof layer and curing to form a heated asphalt coating resin layer;
With
The method for waterproofing concrete slabs, wherein the acrylic radical curable resin has a viscosity at 5 ° C. of 300 mPa · s or less.   2. The method for waterproofing concrete slabs according to claim 1, wherein an acrylic radical curable resin containing methyl methacrylate cross-linking acrylic resin and epoxy acrylate resin is used as the acrylic radical curable resin. A permeable waterproof layer made of an acrylic radical curable resin having a viscosity at 5 ° C. of 300 mPa · s or less formed on the surface of the concrete floor slab,
A heated asphalt coating resin layer formed on the surface of the permeable waterproof layer;
A waterproof structure of a concrete floor slab characterized by comprising:   The waterproof structure for a concrete slab according to claim 3, wherein the acrylic radical curable resin contains a methyl methacrylate cross-linking acrylic resin and an epoxy acrylate resin.

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