JP4726437B2 - How to improve foundation concrete - Google Patents

Description

The present invention is particularly in reinforced concrete foundation of existing houses, etc., the strength and durability of the concrete surface, to an improved method for foundation concrete to improve the progress of neutralization of concrete.

  The foundation of a building is generally reinforced concrete. For such foundation concrete, concrete is placed in a formwork that incorporates reinforcing steel bars and anchor bolts, and then compacted by applying vibration to the concrete with a vibrator to achieve close filling, and a predetermined curing period has elapsed. Then, remove the formwork to complete. This foundation concrete is generally buried in the ground on the lower side and exposed to the atmosphere on the upper side.

  In the above-mentioned basic concrete, fine cracks may occur on the surface of the basic concrete due to shrinkage caused by drying and hardening of the placed concrete, expansion and contraction due to temperature changes in summer and winter, or due to earthquakes or car vibrations. However, this crack does not directly reduce the strength of the foundation concrete.

  In addition, bubbles and pores are formed due to insufficient compaction during construction, defective formwork, and various other causes. Further, there is a problem that the surface becomes brittle due to the weathering accompanying the long-term exposure of the foundation concrete due to gaps, bubbles, pores and the like generated on the surface.

  Also, the moisture evaporates from the surface during the drying of the concrete, or the underground moisture permeates along the foundation concrete and evaporates from the surface. Along with this, there is a case where a white flower phenomenon occurs in which the concrete components are precipitated in white on the surface of the foundation concrete. This also leads to elution of the cement content of the concrete surface layer and may promote surface deterioration.

  In the foundation concrete exposed to the ground, carbon dioxide in the atmosphere enters the concrete or reacts with carbon dioxide dissolved in water to cause a carbonation reaction, and the neutralization proceeds with time. As the neutralization of concrete progresses, there arises a problem that the rust prevention performance against the embedded reinforcing steel bars and the like deteriorates.

  Several proposals have been made to solve the above problems. Among them, the technique described in Patent Document 1 applies elastic mortar to the surface of basic concrete, or applies elastic mortar to the surface of a heat insulating material integrated with the surface of basic concrete. With this technology, even if cracks occur in the basic concrete, the cracks are not exposed to the atmosphere due to elongation occurring in the elastic mortar applied to the surface. Therefore, it is possible to prevent water from penetrating into cracks formed in the basic concrete. In particular, by using acrylic latex as an elastic mortar containing latex, cement, and aggregate, weather resistance is improved, and it is possible to prevent permeation of rainwater or water spray into basic concrete regardless of the presence or absence of cracks.

  The technique described in Patent Document 2 is based on a coating material in which a main agent containing cement, fine aggregate, and slag, a cationic acrylic copolymer emulsion, a pigment, and an admixture containing mineral fibers are mixed. By brushing the surface of the concrete, the cracks generated in the basic concrete are repaired, and the color unevenness of the cement mortar, efflorescence (white flower), or stains due to water absorption, etc. are repaired. With this technique, when the cracks are small, the basic surface can be refreshed regardless of the presence of the cracks, and the color irregularities and spots can be repaired to improve the aesthetics.

  In addition, when repairing neutralized or weakened foundation concrete, after removing these parts, apply alkalinity imparting material to the foundation surface and fill it with resin mortar, etc. The foundation concrete can be refreshed by applying mortar and top finishing.

JP 2003-328371 A Japanese Patent Laid-Open No. 11-100287

  The technique of the above-mentioned Patent Document 1 is mainly intended for a new foundation, and can exhibit high waterproofness and followability to occurrence of cracks in the foundation concrete. However, in basic concrete such as properties that have been aged for a long period of time, elastic mortar is used in areas where white flower phenomenon occurs, fine cracks occur, or the surface becomes weak due to weathering or the like and there are voids on the surface. Since the finish has voids and the like, cracks and voids cannot be sufficiently filled, and adhesive strength is not ensured, and it cannot be said that the elastic mortar does not peel off during long-term exposure.

  In the technique of Patent Document 2, in the short term, it is possible to improve the aesthetics of the foundation in which the whiteness phenomenon occurs in concrete, or to repair small cracks and improve corrosion resistance and weather resistance. However, it is difficult to prevent weakening due to weathering, recurrence of white flower, and progress of neutralization in the long term.

  In addition, the method of filling the resin mortar with brittle or neutralized concrete and then adding alkalinity to the resin mortar makes it necessary to hang the iron or coat the resin mortar. The adhesive strength between the hanging part and the filled resin mortar, the base surface and the thin resin mortar may be uncertain, and there is a possibility that the process is complicated and takes a construction period. Alternatively, the adhesive strength of the resin mortar applied to the connected portion is lowered in the long term, and it cannot be said that the resin mortar does not peel off during the long-term exposure.

  As mentioned above, deterioration of the surface of the basic concrete, that is, weakening due to weathering over a long period of time, repair improvement of cracks due to expansion and shrinkage of the basic concrete, prevention of recurrence of white flower, delay of neutralization, etc. At present, no construction method has been developed that can realize this improvement at once.

The object of the present invention is to improve the surface of a concrete foundation that has been weakened by fine cracks, white flower, or weathering, especially on a foundation such as a house that is used for a long period of time (for example, 50 years or more) and neutralization. progress is delayed, also come out to improve the water resistance and weather resistance, to provide a method for improving the basic concrete surface is deteriorated.

In order to solve the above-mentioned problems, the improvement method of the foundation concrete according to the present invention is that JIS A6833 has a viscosity in an uncured state having permeability and waterproofness on the rising surface of the foundation concrete where fine cracks have occurred over time. the first paint as its lower side is buried in the ground, which in value based on an epoxy resin coating material in the range of from about 350Pa · S~450Pa · S, and to be penetrated by filling fine cracks on the surface while applied to, it is to apply the second paint made of an elastic mortar having elasticity and weather resistance to the surface of the first paint.

The surface of the foundation concrete rises against the voids such as cracks, cracks, slight gaps, bubbles, pores, etc. that have occurred near the surface of the foundation concrete that has been used for many years (hereinafter sometimes referred to simply as “surface of the foundation concrete”) first paint in), since the epoxy resin coating has a waterproof and permeable, penetration and to be able to fill the voids, can solidify adhere the weakened concrete surface underlying concrete surface, and bubbles or pores or Water penetration can be prevented from cracking. Also by applying the elastic mortar having a first paint surface elasticity and weather resistance, which is applied to the surface of the concrete foundation, the even when the subsequent new cracks or cracks occurs in the foundation concrete 2 paint to cause elongation, can prevent the cracking is exposed on the surface, the first paint life can be extended and suffering the surface of the first paint. Therefore, it is possible to prevent weakening due to weathering.

  For this reason, by preventing the penetration of rainwater and water spray into the basic concrete, it becomes possible to prevent the expansion of cracks and adverse effects on the reinforcing steel bars. , The progress of neutralization by carbon dioxide dissolved in water can be prevented.

Therefore, even when the surface of the foundation concrete is weakened due to the exposure of bubbles and holes due to weathering, the epoxy resin paint penetrates into these bubbles and holes, solidifies and adheres to improve waterproofness, and cracks in the future. even if cracks or minute unevenness, can be second paint made of an elastic mortar to maintain the appearance without exposing them, basic even for further long-term use to improve weather resistance The progress of neutralization of concrete can be prevented.

Since the first paint on the surface of the concrete foundation and with the epoxy resin paint made of a high permeability epoxy resin, enhanced water resistance by having a high permeability to underlying concrete surface, and securing the adhesive strength that This makes it possible to improve the air blocking performance. However, epoxy resin paints are inferior in weather resistance. Therefore, when the second paint of an epoxy resin paint surface and elastic mortar can be exerted weather resistance with elastic mortar to prevent exposure to the atmosphere of an epoxy resin paint. Since the elastic mortar has elasticity, even if cracks occur in the concrete foundation, it is possible to follow the cracks. Furthermore, since the epoxy resin paint and the elastic mortar have good adhesion to each other, the weather resistance can be maintained for a long period of time.

  Therefore, contact with the atmosphere of the surface of the foundation concrete and contact with moisture such as rainwater is eliminated, and weakening due to weathering and progress of neutralization due to the action of carbon dioxide gas can be prevented. In addition, for the phenomenon in which underground moisture evaporates from the upper side of the foundation, even if underground moisture penetrates into the concrete, it has adhesive strength that can sufficiently resist the force that appears on the surface, so the components of the foundation concrete There is no precipitation, and the occurrence of the white flower phenomenon can be prevented.

  Therefore, in the foundation according to the present invention, it is possible to exhibit high waterproofness and block ventilation, regardless of the aging of the foundation concrete, and further, excellent weather resistance and no white flower. In addition, it is possible to constitute a foundation that is excellent in appearance and aesthetics, can prevent the progress of neutralization, and can be a foundation that maintains stable performance over a long period of time.

  As described above, the present invention can be used as a method for securing a life of 50 years or more in a general house that has been used for about 25 years.

Hereinafter, the best mode of the method for improving foundation concrete according to the present invention will be described.

Method for improving the foundation concrete according to the present invention, a first paint composed of an epoxy resin coating material is applied to the surface of the concrete foundation is for applying a second paint further to the first paint surface. The epoxy resin paint has high permeability and waterproofness, and the elastic mortar has elasticity and weather resistance.

  In particular, as an epoxy resin paint that can exhibit high permeability and waterproofness, for example, the viscosity in an uncured state (test based on JIS K 6833 so that cracks generated in a concrete structure can be easily filled). ) Is preferably a crack-penetrating epoxy resin paint adjusted to a range of about 350 mPa · s to about 450 mPa · s. When the epoxy resin paint is applied to the surface of the foundation concrete, even if a crack having a width of about 0.2 mm is generated in the foundation concrete, it is possible to penetrate and fill the cracked portion.

Also when cured osmotic epoxy resin paint described above is, for example, after 4 weeks of curing period, the compressive strength of about 45N / mm ² approximately, flexural strength can be exhibited about 35N / mm ² degree is there.

  Further, the elastic mortar having elasticity and weather resistance is preferably an elastic mortar having elasticity capable of extending following the expansion and contraction of the concrete when cracking occurs in the basic concrete. Cracks that occur in the basic concrete due to shrinkage due to drying are about 1 mm or less, and any elastic mortar that can exhibit this degree of elongation may be used. As an elastic mortar containing latex, cement, and aggregate having such properties, an acrylic latex described in Patent Document 1 is preferably used. It has been found that an elastic mortar using this acrylic latex can follow a crack of 1.4 mm width. It is also waterproof against rainwater.

  The epoxy resin paint layer formed on the surface of the foundation concrete hardens the surface of the foundation concrete and improves the waterproof property, and further has a function of blocking ventilation, and the elasticity formed on the surface of the epoxy resin paint layer. The mortar layer has a function of blocking the epoxy resin coating layer from the air and water, and a function of extending when cracks occur in the basic concrete so that the cracks are not exposed.

  Therefore, the basic concrete having an epoxy resin paint layer on the surface and an elastic mortar layer on the surface of the epoxy resin paint layer has high waterproofness and air permeability and has high followability to cracks. Thus, it becomes possible to prevent the progress of neutralization due to the action of carbon dioxide gas by blocking the basic concrete from the air and water. In addition, since the surface of the foundation concrete is shielded from the atmosphere and rainwater, it is possible to eliminate the influence of weathering and to prevent the surface from being weakened by weathering.

  Furthermore, since the epoxy resin paint layer has relatively high strength, waterproofness and air permeability, even if groundwater penetrates from a portion of the basic concrete where the epoxy resin paint layer is not formed, the atmosphere of the groundwater It is possible to prevent evaporation. For this reason, it becomes possible to prevent precipitation of the concrete component accompanying the evaporation of moisture, and it is possible to prevent the white flower phenomenon. Accordingly, it is possible to prevent the appearance from deteriorating due to the peeling of the paint layer accompanying the occurrence of the white flower phenomenon.

  In the present invention, the foundation may be new immediately after installation, but it is more effective if it is an existing foundation after a long period of time. That is, the foundation of the present invention is highly effective in preventing the progress of neutralization of the basic concrete, preventing the recurrence of white flowers, and improving the appearance. For this reason, when applied to an existing foundation where the neutralization of the foundation concrete is in progress, in addition to the effects described above, ease of construction, unification of job types and simplification of the process accompanying this, etc. Can be measured, which is preferable.

  The epoxy resin coating is applied to the surface of the basic concrete in an uncured liquid and dried, whereby an epoxy resin coating layer is formed. In particular, by using a highly penetrating epoxy resin coating, the cracks generated in the foundation concrete penetrate into the cracks to fill the cracks, and minute voids and irregularities generated on the surface of the foundation concrete by weathering It is possible to penetrate and fill.

  The thickness of the epoxy resin coating layer formed on the surface of the basic concrete is not particularly limited, and the solidified epoxy resin coating layer exhibits a strength equal to or greater than the compressive strength exhibited by the basic concrete and elastic mortar. And a thickness (about 0.2 mm) that can exhibit sufficient waterproof performance and non-breathing performance to the basic concrete.

  The thickness of the elastic mortar formed on the surface of the epoxy resin coating layer is not particularly limited as long as it can block exposure of the epoxy resin coating layer to the atmosphere.

  The application method for applying the epoxy resin coating to the surface of the basic concrete is not particularly limited, but application with a roller is preferable for achieving uniform workability and film thickness. Similarly, the application method when applying the elastic mortar to the surface of the epoxy resin coating layer is also preferably an application with a roller. In this way, by applying an epoxy resin paint to the surface of the basic concrete and applying an elastic mortar to the surface of this epoxy resin paint layer using a roller, work can be carried out without requiring a plasterer Is possible.

  When the epoxy resin paint is applied to the foundation concrete, when the white concrete phenomenon occurs in the foundation concrete, the surface treatment of the foundation concrete may be performed with water. In particular, since the epoxy resin paint has high permeability, the epoxy resin paint applied to the foundation concrete penetrates into the cracks generated in the foundation concrete, fills the cracks, and is applied to the surface of the foundation concrete. It is possible to infiltrate and fill the generated fine holes and irregularities.

Next, a preferred embodiment of the method for improving foundation concrete according to the present invention will be described with reference to the drawings. FIG. 1 is a sectional view of the foundation. In the figure, the foundation A has a foundation concrete 1 composed of a footing 1a and a rising edge 1b, and is configured as a cloth foundation in which the foundation concrete 1 is installed along the outer periphery of the building. Reinforcing bars (not shown) are embedded in the footing 1a and the rising 1b, respectively, and anchor bolts (not shown) are also embedded in the rising 1b.

  A floor slab 2 and an outer wall 3 are installed at the top end of the rising edge 1b of the foundation concrete 1. In the present invention, the structure of the floor slab 2 and the outer wall 3 is not limited at all, and the floor slab 2 can be constructed by laying a plurality of floor panels or by placing concrete. In addition, the outer wall 3 can be constituted by concrete with a plurality of concrete wall panels or wooden wall panels attached to columns and beams (not shown), or cast in a formwork.

  An epoxy resin coating layer 10 is formed on the surface of the rising 1b constituting the basic concrete 1, in this embodiment, the surface corresponding to the outside of the building (the surface corresponding to the outer wall 3, the surface on the outdoor side), and the epoxy resin An elastic mortar layer 11 is formed on the surface of the paint layer 10. The epoxy resin paint is a two-component paint composed of a main agent and a curing agent. Furthermore, in this embodiment, a top coat layer 12 for further improving the weather resistance is formed on the surface of the elastic mortar layer 11. Each of the layers 10 to 12 is formed on the surface of the rising portion 1b constituting the foundation A, and the upper side is exposed to the atmosphere and the lower side is buried in the ground.

  It is advantageous to provide the top coat layer 12 at a site where the surface of the elastic mortar layer 11 is disliked. That is, by forming the top coat layer 12, the surface of the foundation A is difficult to get dirty and can be easily cleaned even when the stain is attached. Further, the weather resistance can be further improved by forming the topcoat layer 12 on the surface of the elastic mortar layer 11.

  The epoxy resin coating layer 10 is formed as a layer having an average thickness of about 0.2 mm (range of about 0.1 mm to about 0.3 mm). And if the epoxy resin coating layer 10 is the said thickness, while satisfying the waterproofness with respect to the standup 1b of the basic concrete 1, it is possible to penetrate and fill the cracked part generated in the standup 1b. is there.

  The elastic mortar layer 11 is formed as a layer having an average thickness of about 1 mm to 2 mm. By having such a thickness, it is possible to prevent the epoxy resin coating layer 10 from being exposed to the atmosphere. In particular, the elastic mortar layer 11 adheres to the epoxy resin coating layer 10 with sufficient strength, and even when a crack or the like occurs in the rising 1b of the basic concrete 1, the crack follows the crack. And does not peel off from the epoxy resin coating layer 10.

  In the foundation A configured as described above, even if water such as rain water or sprinkling adheres to the outdoor side surface of the foundation concrete 1 rising 1b, the adhered water permeates through the elastic mortar layer 12 and the epoxy resin coating layer 11. And atmospheric penetration is prevented. For this reason, carbon dioxide gas in the atmosphere or carbon dioxide dissolved in moisture does not touch the basic concrete 1, and it is possible to prevent the neutralization of the basic concrete 1 from progressing. Furthermore, since rainwater or air does not directly touch the surface of the rising portion 1b, it is possible to prevent weathering from occurring on the surface.

  Even if moisture contained in the ground penetrates the rising 1b from the footing 1a, since the outdoor surface of the rising 1b exhibits high adhesive strength and waterproofness due to the epoxy resin coating layer 10, the epoxy resin paint The layer 10 does not peel off and does not evaporate from the outdoor surface to the atmosphere. For this reason, the white surface phenomenon by precipitation of a concrete component hardly arises on the outdoor side surface of the rising 1b, and the aesthetic appearance is not impaired.

  The inventor conducted the following experiment. Make a test piece of epoxy resin and elastic mortar over 100 mm from the end of a 130 mm long rod-shaped concrete, and perform an accelerated test equivalent to 20 years with the untreated part of the other end 30 mm immersed in water. No abnormalities were found.

  Next, the foundation construction procedure according to the present invention will be described with reference to FIG. In the figure, the same parts as those in the above-described embodiment are designated by the same reference numerals and the description thereof is omitted.

  In improving the foundation concrete 1 which is the existing foundation A and has been neutralized by concrete for a long period of time or has undergone white flower phenomenon, first, as shown in FIG. Sediment is dug along the foundation A to expose a part of the footing 1a and the rising 1b. In this state, the surface on the outdoor side of the rising 1b is washed with water, and the adhering soil is washed away. At this time, the concrete component deposited on the surface by the white flower phenomenon is eliminated, and the aesthetic appearance is improved. Moreover, even if it is a neutralized part, it is sufficient to perform washing by washing with water and brushing, and no change is required.

  After the washing with respect to the rising 1b of the basic concrete 1 is completed and dried, an epoxy resin paint is applied by a roller 15 to form an epoxy resin coating layer 10 on the surface of the rising 1b, as shown in FIG. At this time, when many cracks are generated in the basic concrete 1, the applied epoxy resin paint penetrates into the cracks and cannot form the epoxy resin paint layer 10 having a sufficient thickness on the surface. Sometimes. Accordingly, it is preferable that the amount and the number of times of application of the epoxy resin paint to the basic concrete 1 are appropriately set according to the situation of the rising 1b.

  After the epoxy resin paint applied to the surface of the rising 1b is appropriately dried (although it changes according to the climate, after about 1 day), as shown in FIG. By applying an elastic mortar, an elastic mortar layer 11 is formed on the surface of the epoxy resin coating layer 10. At this time, the number of times of application of the elastic mortar is not limited at all, and it is preferable to set appropriately according to conditions such as the thickness of the coating film that can be formed by one application of the elastic mortar.

  Further, if necessary, a top coat is further applied to the surface of the elastic mortar layer 11, and after curing for a predetermined period, the earth and sand are backfilled along the surface of the foundation A on the outdoor side. The basic A shown in FIG.

  In the foundation A, as described above, the waterproofness and air permeability of the foundation concrete 1 are improved, water does not adhere to the surface of the rising 1b of the foundation concrete 1, and the atmosphere is not touched. For this reason, it becomes possible to prevent the progress of neutralization due to the action of carbon dioxide dissolved in water and the action of carbon dioxide in the atmosphere.

  Further, since moisture that has penetrated from the ground does not evaporate from the surface on the outdoor side of the rising 1b, the whiteness phenomenon does not occur on the surface, and the aesthetic appearance of the outdoor side of the rising 1b is not impaired.

  In particular, by applying an epoxy resin paint and elastic mortar using a roller, a plastering job is not required. In addition, even if minute unevenness due to weathering has occurred on the existing foundation, the epoxy resin paint penetrates and adheres to the recesses and hardens the surface, so it is possible to easily improve the foundation concrete 1 It becomes.

  The method for improving foundation concrete according to the present invention is effective in improving aesthetics when applied to foundations that have been used mainly for a long period of time and cracked or the surface has deteriorated due to weathering. In addition, when applied to a foundation where the neutralization of concrete is progressing, it is possible to prevent the progress of neutralization, which is effective. However. You may apply to the foundation installed in a new building.

It is sectional drawing of a foundation. It is a figure explaining the construction procedure of foundation concrete.

A foundation 1 foundation concrete 1a footing 1b rising 2 floor slab 3 outer wall 10 epoxy resin paint layer 11 elastic mortar layer 12 topcoat layer 15 roller

Claims (1)

From the epoxy resin paint in which the viscosity in the uncured state having permeability and waterproofing is about 350 Pa · S to 450 Pa · S in the range of about 350 Pa · S to 450 Pa · S on the rising surface of the foundation concrete where fine cracks have occurred due to aging. It becomes the first paint as its lower side is buried in the ground, and while applying as permeated filling fine cracks on the surface, elasticity and weather resistance to the surface of the first paint method for improving the foundation concrete, characterized by applying a second paint made of an elastic mortar with.

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