JP2005087041A - Weed-preventing sealant and sealing structure - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To develop a weed growth-preventing sealant, and to provide a sealing structure. <P>SOLUTION: This weed-preventing sealant is characterized by comprising a mixture which contains 30 to 70 mass% of an inorganic curing composition and 30 to 70 mass% of a resin emulsion composition. The weed-preventing sealant contains the resin emulsion composition selected from ethylene-vinyl acetate copolymer resin, acryl resins, urethane resins, epoxy resins, rubbers and asphalt emulsifiers. The weed-preventing sealant contains the inorganic curing composition selected from gypsum, alumina cement, white portland cement, ordinary portland cement, high-early-strength portland cement, moderate heat portland cement, sulfate-resistant portland cement, and mixed portland cement. <P>COPYRIGHT: (C)2005,JPO&NCIPI

Description

  The present invention relates to a sealing material and a sealing structure for preventing weeds.

  Naturally occurring weeds have strong growth and reproductive potential, and if left untreated, they develop cracks by developing underground stems, leading to deterioration in aesthetics, stagnation of waste, and wastewater treatment such as rainwater. The mowing process is forced. The harvesting work often requires a lot of manual work, and the cost burden is large. Further, when cutting only the above-ground part, there is a high probability that weeds will grow again, and after a certain period of time, a cutting operation is required.

  As these countermeasures, Japanese Patent Application Laid-Open No. 2002-154912 discloses a long sheet material that suppresses the generation of weeds. This is effective as a countermeasure for a place having a certain area, but is difficult to apply to the generation of weeds from the crack portion targeted by the present invention. Japanese Patent Laid-Open No. 8-27757 discloses that a gap herbicidal material, which is a compatible resin that has a paste or plasticity at room temperature and is naturally cured by contact with air, is pressed against a pavement material of a concrete product and rolled. A herbicidal structure is disclosed. However, the disclosed interstitial herbicides are disclosed as vinyl emulsion, bond (trade name), and increment (trade name). Is not sufficient as a measure to prevent the generation of weeds.

Moreover, as a countermeasure against the crack portion, there is a sealing material having a tape shape or a block shape, but these measures are costly and time consuming for construction. In addition, when the crack part has a substantially linear shape, construction with a tape-like or block-like sealing material is easy, but when the crack part is curved or bent, construction is performed. Will be very difficult. Therefore, an easy and effective countermeasure against weed overgrowth is desired at a low cost.
JP 2002-154912 A JP-A-8-27757 (paragraph 0016)

  Accordingly, as a solution to the above problem, the present inventors have invented a sealing material and a sealing structure for preventing weeds as a result of intensive studies. The summary is as follows.

A weed prevention sealant comprising a mixture comprising 30 to 70% by mass of an inorganic cured composition and 30 to 70% by mass of a resin emulsion composition.
A weed prevention sealant comprising at least one resin emulsion composition selected from ethylene-vinyl acetate copolymer resin, acrylic resin, urethane resin, epoxy resin, rubber, and asphalt emulsion.
It includes at least one inorganic curing composition selected from gypsum, alumina cement, white Portland cement, ordinary Portland cement, early-strength Portland cement, moderately hot Portland cement, sulfate-resistant Portland cement, and mixed Portland cement. Weed prevention sealant.
A weed prevention sealant comprising 3 to 20% by mass of coffee grounds.

  A weed prevention sealing structure comprising at least one selected from silica sand, silica powder and cement laminated on the surface of the sealing material of the present invention.

  The boundary between the road pavement and the concrete block at the end of the road, the joint part of the concrete block that forms the road median strip, the rising part of the building foundation from the ground, etc. are made of two materials that touch the boundary. Cracks are likely to occur due to differences in material, strength, coefficient of thermal expansion, etc., and earth and sand or dust accumulates in the cracks, seeds of scattered weeds settle, and weeds grow. Get up.

  The same phenomenon may occur in ancillary facilities of buildings, and weeds will grow from the rising part of the concrete and boundary stone to form the flower bed even in the private home garden where flower beds etc. are planned and installed There is.

  If these weeds are left unattended, not only the beauty of the aesthetics is impaired, but also the underground stems of the weeds develop, so that cracks may be enlarged. Therefore, the sealing material and the sealing structure according to the present invention are effective.

  First, as pre-treatment, weeds that are currently prospering are removed, if possible, weeds with rhizomes, and at least above-ground weeds. If pebbles, moss and garbage remain at the same time, they are also eliminated. If this operation is neglected, the sealing effect may be greatly reduced due to poor adhesion, and the weed prevention period may be shortened. Removal of pebbles, dust, etc. can be done relatively easily with scissors or brushes, but if moss is attached, it is necessary to remove them using a tool such as a wire brush.

  Next, curing is performed with a masking tape or the like so that the sealing material does not adhere to the periphery where the sealing material is applied. When curing a large area, it is efficient to mask it with newspaper or the like and stop the periphery with paper tape. Note that this step can be omitted when curing is not required.

  A primer is applied to ensure that the sealant adheres well. As the primer, a primer other than the sealing material described below can be suitably used. The primer can be applied by conventionally known brush coating, roller coating, or the like.

  The sealing material of the present invention comprises at least one resin emulsion composition selected from ethylene-vinyl acetate copolymer resin, acrylic resin, urethane resin, epoxy resin, rubber, asphalt emulsion, and gypsum, alumina cement, white Portland cement. The sealant is composed mainly of at least one inorganic curing composition selected from the group consisting of normal, Portland cement, early-strength Portland cement, moderately hot Portland cement, sulfate-resistant Portland cement, and mixed Portland cement. It is essential that the resin emulsion composition is 30 to 70% by mass (the inorganic curable composition is 30 to 70% by mass), and less than 30% by mass (the inorganic curable composition exceeds 70% by mass). Since rubber properties such as elongation cannot be imparted to the sealing coating film, it cannot follow fluctuations due to shrinkage / expansion of the construction site after the sealing material is applied, and there is a risk of causing cracks and the like in a short period after the construction. If it exceeds 70% by mass (the inorganic curable composition is less than 30% by mass), the strength required for the coating film of the sealing material is insufficient, and cracking or peeling occurs when it is stepped on by pedestrians or passing vehicles at construction sites. Easy to do. Immediately before constructing the sealing material, the above two components are mixed and dispersed with a high-speed blade type stirrer or the like.

In addition to the above composition, coffee grounds may be added to the sealing material according to the present invention. When coffee grounds is mixed with soil, it has an inhibitory effect on plant growth and is applied to the weed prevention sealing material of the present invention. As a mixing ratio, 3-20 mass% is suitable with respect to the sealing material whole quantity. In order to facilitate handling, the coffee grounds are suitably dried by heating and evaporating moisture. If it is less than 3% by mass, the plant growth inhibitory action cannot be expected, and if it exceeds 20% by mass, the physical properties such as elongation and strength of the coating film may be lowered.
In addition to being mixed with the sealing material, the coffee grounds can also be mixed with the silica sand when the crack portion is filled as a pretreatment prior to the application of the sealing material. Moreover, when laminating a silica sand layer and a cement layer, which will be described later, on the surface of the sealing material, it can be mixed with these materials.

When there is a deep recess in the application site of the sealing material, it is disadvantageous in terms of cost to fill all of this with a sealing material, so pre-fill the recess with silica sand, silica powder, etc. It is preferable to apply a sealing material thereafter.
As a sealing operation, any method may be used as long as a sealing material is applied to form a uniform coating film. In practice, the most appropriate method is adopted according to the width and shape of the crack to be sealed. If the crack width is narrow, it is possible to apply the sealant directly from a suitable container. If the construction site is long, it is pumped from the mixer where the sealant is prepared and pumped to the required coating width. It is efficient to apply with a dedicated nozzle.
As a coating amount of the sealing material, 150 g / m to 400 g / m is necessary. If it is less than 150 g / m, the film thickness necessary for sealing may not be formed, and there is a possibility that weeding of weeds cannot be prevented.
Even if it is applied over 400 g / m, the sealing effect is not changed, and an effect proportional to the coating amount cannot be obtained, which is disadvantageous in terms of cost.

After the sealing work is completed with the sealing material, the work of smoothing the coated surface is performed. There are no particular limitations on the tool or method, and the coated surface of the sealing material applied with a scissors, a brush, a roller, a dedicated jig or the like may be finished smoothly. If necessary, the surface of the sealing material may be colored in an arbitrary color.
Moreover, when the coating film surface remains smooth, when the sealing material coating film cannot fully follow due to fluctuations in the construction location, the coating film is subjected to great stress and is likely to crack. In order to prevent this, it is possible to disperse the stress applied to the coating film and to make the coating film difficult to break by spreading silica sand, silica powder, etc. on the coating film surface in the stage before curing immediately after application of the sealing material. Spreading cement instead of quartz sand and quartz powder increases the strength of the coating film, and the same effect is obtained.

  Finally, the curing method such as masking tape that has been subjected to the curing process is removed to complete the construction method.

  Specific examples will be described below to help understanding of the present invention. Needless to say, the present invention is not limited to the following examples.

40% by mass of an ethylene-vinyl acetate copolymer emulsion and 60% by mass of alumina cement were mixed and dispersed with a high-speed blade type stirrer to obtain a sealing material 1.
A crack was generated at the boundary between the building foundation and the sidewalk asphalt pavement, and the construction using the present invention was applied to a place where weeds grew from this crack. As pretreatment, all weeds were removed, and moss, pebbles and dust were removed. Sealing material 1 was applied by pressure using a special coating machine. The coated surface was smoothed with a brush, silica sand was sprayed on the coated surface, dried and cured, and the sealing process was completed.

The sealing material 2 was obtained by adding 5% by mass of the heat-dried coffee grounds to the sealing material 1 and mixing them.
A crack was generated at the boundary between the building foundation and the sidewalk asphalt pavement, and the construction using the present invention was applied to a place where weeds grew from this crack. As pretreatment, all weeds were removed, and moss, pebbles and dust were removed. Sealing material 2 was applied by pressure using a special coating machine. The coated surface was smoothed with a brush, silica sand was sprayed on the coated surface, dried and cured, and the sealing process was completed.

Comparative example

  When the pretreatment process of Examples 1 and 2 was completed, the part left without performing the subsequent process was used as a comparative example.

Results When the locations of Example 1, Example 2, and Comparative Example were observed half a year later, Examples 1 and 2 did not have any weed overgrowth, but weeds grew again in the Comparative Example portion. Was.

In the curing process of the sealing material according to the present invention, water is generated by the film-forming action of the resin emulsion, and at the same time, it is cured by a hydrosetting reaction with an inorganic curing composition such as cement. For example, the sealing material and the construction surface have a high affinity and are strongly integrated.
In addition, since it is an emulsion-based material, it does not affect the environment even if it flows before curing due to sudden rain during painting.
Since the sealing material according to the present invention is a coating type, even if the crack portion has a curved shape or is bent in a complicated manner, it can be easily followed by construction.
Moreover, the sealing structure according to the present invention is an excellent method for preventing weed overgrowth, which can stably prevent overgrowth of weeds over a long period of time, and that this method is easy to implement in a short time.

Claims (5)

A weed prevention sealant comprising a mixture comprising 30 to 70% by mass of an inorganic cured composition and 30 to 70% by mass of a resin emulsion composition. The weed prevention according to claim 1, comprising at least one resin emulsion composition selected from ethylene-vinyl acetate copolymer resin, acrylic resin, urethane resin, epoxy resin, rubber, and asphalt emulsion. Sealing material. It includes at least one inorganic hardening composition selected from gypsum, alumina cement, white Portland cement, ordinary Portland cement, early-strength Portland cement, moderately hot Portland cement, sulfate-resistant Portland cement, and mixed Portland cement. The weed prevention sealant according to claim 1. The weed prevention sealant according to claim 1, comprising 3 to 20% by mass of coffee grounds. A weed prevention sealing structure, wherein at least one selected from quartz sand, quartzite powder, and cement is laminated on the surface of the sealing material according to claim 1.