JPH03254861A - Method and sheet for preventing slipping on construction surface - Google Patents

Abstract

PURPOSE:To provide non-slip projections so as to obtain an excellent effect of preventing slipping by a method wherein the chips of elastic material are spread on the surface of a construction and liq. material is sprayed thereagainst and hardened to form an elastomer layer. CONSTITUTION:The ships 3 of elastic material such as rubber and urethane are spread over the upper surface of a base sheet 2 consisting of an elastic material on the surface of a construction 1 such as pool. A liq. material is thereafter sprayed against the base sheet 2 to produce thereon a coat, which is then hardened to form an elastomer layer 4. In this way, the chips 3 of the elastic material form non-slip projections 6 on the surface of the elastomer layer 4 to increase the frictional force thereof, as if lying buried in the entire surface of the base sheet 2. Therefore, this sheet is outstandingly effective in preventing slipping with its effect remaining unchanged even when it is wet and highly safe to walk on, even when man slips and falls.

Description

Detailed Description of the Invention [Industrial Application Field] The present invention provides a method of providing an elastomer layer having irregularities on the surface of a structure to make the surface less slippery, and an anti-slip sheet comprising the elastomer layer. It is related to.

[Conventional technology]

Places that get wet easily, such as poolsides, are prone to slipping when people walk on them, so various types of anti-slip measures have been used in the past. Conventionally, this type of anti-slip method includes painting the poolside surface with silica sand,
A colored mortar plate or an embossed rubber or resin mat is laid on the surface (methods are known).

[Problem to be solved by the invention]

However, these conventional methods have an anti-slip effect when the surface of the coating film or board/sheet is not wet, but once the surface becomes wet, the anti-slip effect decreases significantly and the problem becomes extremely slippery. There is. Furthermore, these conventional methods are still insufficient in their anti-slip effect.

Furthermore, in the case of paint containing silica sand or color plates made of mortar, there is a high risk that if a person falls, they will hit their body on the hard surface and injure themselves, which is especially dangerous if they hit their head. .

This invention was made in view of the above circumstances, and its purpose is to have an excellent anti-slip effect, and the anti-slip effect hardly decreases even when the surface is wet with water. To provide an anti-slip method for the surface of a structure and an anti-slip sheet that can reliably prevent slips.

Another object of the present invention is to provide a non-slip method for the surface of a structure and a non-slip sheet that is highly safe and reduces the risk of injury when a person falls on it.

[Means for Solving Problem 1] The anti-slip method of the present invention, which has been made to achieve the above object, includes a step of dispersing elastic material chips on the surface of a structure, and a step of spraying a liquid material over the elastic material chips. By spraying and curing, an elastomer layer is formed on the surface of the structure.
the elastomer layer includes a step of fixing the elastomer layer,
The device is characterized in that a large number of anti-slip convex portions are formed by the elastic material chip.

However, when forming the elastomer layer, the liquid material may be sprayed onto the surface of the base sheet instead of directly onto the surface of the structure. In this case, since an elastomer layer with anti-slip protrusions is formed on the base sheet, this base sheet is spread over the structure to prevent it from slipping.

Further, the anti-slip sheet of the present invention comprises a base sheet, and an elastomer layer formed and fixed on one surface of the base sheet, in which a large number of anti-slip protrusions are formed by dispersing elastic material chips. , the elastomer layer is formed by spraying a liquid material onto the base sheet from above the elastic material chip and curing it.

It is preferable to use a liquid material that hardens in a short time at room temperature after being sprayed, and is particularly preferably composed of a main component mainly composed of polyol and a curing agent mainly composed of incyanate prepolymer. .

[Effect]

When a liquid material is sprayed onto the elastic material chips dispersed on the surface of the structure or base sheet and cured, the liquid material covers the elastic material chips in a film and hardens in a layer on the surface of the structure or base sheet. , becomes an elastomer layer.

This elastomer layer adheres to the surface of the structure or base sheet when cured, so that the surface of the structure or pace sheet is covered with the elastomer layer, and the elastic material chip is fixed to form a non-slip protrusion. Formed in large numbers.

The anti-slip convex portions of the elastomer layer are formed in this way, so by forming the elastomer layer thinner than the size of the elastic material chip, the anti-slip convex portions can prevent the surface of the elastomer layer from slipping. The degree of unevenness (the height of the convex parts) can be made thicker than that of conventional mortar color flat plates or embossed rubber/resin mats, etc., and therefore the frictional force on the surface of the elastomer layer can be easily increased. be able to.

Therefore, even when the surface of the elastomer layer is dry or wet, it is possible to prevent a person walking on it from easily slipping.

In addition, the elastomer layer itself is elastically deformed, and the elastic material chips that form the anti-slip protrusions are also elastically deformed, so if a person falls on it, the elastomer layer will act as a cushion and there is a risk of serious injury. It is completely safe.

[Example] Embodiments of the present invention will be described below with reference to the drawings.

FIG. 1 is a sectional view showing the vicinity of the surface of a structure that has been made non-slip by the anti-slip method according to the present invention. In this embodiment, an anti-slip sheet having anti-slip protrusions (6) is laid on the surface of a concrete structure (1) forming a pool or the like to prevent the surface from slipping.

This anti-slip sheet consists of a base sheet made of elastic material (
2), and an elastomer layer (4) in which elastic material chips (3) are dispersed, formed and fixed on the upper surface of the base sheet (2).
and a color coating layer (5) coated on the upper surface of the elastomer layer (4). The anti-slip convex portion (6) is formed by elastic material chips (3) dispersed and fixed within the elastomer layer (4).

The color coating layer (5) is used to color the anti-slip sheet, and by appropriately setting the color of the color coating layer (5), it can be colored in an optimal color depending on the installation location.

The base sheet (2) can be formed from a known elastic material such as rubber or elastomer, and can be adhered to the surface of the structure (1) to prevent the anti-slip sheet from moving, or can be removed. You can simply post it like this.

The elastic material chips (3) are for forming anti-slip protrusions (6) on the surface of the elastomer layer (4) to increase frictional force, and are distributed over the entire surface of the base sheet (2). There is. Moreover, the elastic material chip (3) has an elastomer layer (
4) It is in the shape of being buried inside.

The elastomer layer (4) is made by spraying a liquid material onto the base sheet (2) so as to form a film and curing it. The sprayed liquid material adheres to the surface of the base sheet (2) when it hardens to become the elastomer layer (4), so the elastic material chips (3) dispersed on the base sheet (2) It is covered by an elastomer layer (4) and fixed to the base sheet (2). In this way, the elastic material tip (3) can be covered and firmly held by the elastomer layer (4), so that there is no risk of the elastic material tip (3) chipping or coming off during use.

The elastic material chip (3) can be formed from a small piece of an elastic material such as rubber or polyurethane, and its shape is arbitrary. However, considering the role of preventing slippage, a shape with many sharp corners is preferable to a shape that is close to a sphere. Further, the size thereof varies depending on the relationship with the thickness of the elastomer layer (4), but approximately several mm is appropriate.

Furthermore, when the amount of liquid material sprayed increases and the thickness of the elastomer layer (4) approaches the size of the elastic material chip (3), the anti-slip protrusion (6) becomes smaller (lower) and becomes sufficient. Therefore, it is preferable to make the thickness of the elastomer layer (4) as thin as possible within a range that can firmly fix the elastic material chip (3).

Next, we will explain how to make the anti-slip sheet with the above structure.
This will be explained with reference to FIG.

First, as shown in Figure 3(a), the base sheet (2
) Elastic material chips (3) made of rubber pieces or the like are dispersed on the upper surface of the material. This work is usually done manually, but it goes without saying that it may also be done using a machine. Note that since the elastic material chips (3) directly form the anti-slip protrusions (6), they need to be dispersed as uniformly as possible.

Next, as shown in FIG. 3(b), a well-known spraying device is used to blow out a liquid material that hardens in a short time at room temperature from a nozzle (8) through a hose (7), and an elastic material chip (3 )
Spray the entire top surface of the base sheet (2) from above,
A film is formed to cover the base sheet (2). This film is cured after a predetermined period of time, and an elastomer layer (4) is formed on the upper surface of the base sheet (2).

At this time, adjust the amount of spray to make sure that the elastomer layer (
The thickness of the elastic material chip (4) is set appropriately according to the size of the elastic material chip (3), and the elastic material chip (4) is placed on the surface of the elastomer layer (4).
3) so that the anti-slip protrusion (6) of an appropriate height is formed.

Finally, as shown in Figure 3(c), the elastomer layer (4)
Using another hose (9) and nozzle (10), spray a thin layer of colored resin onto the top surface of the color coating layer (5).
) to form. This color coating layer (5) is preferably formed as thin as possible so that the unevenness of the elastomer layer (4) does not become too small. However, it is also possible to provide only the elastomer layer (4) without providing the color coating layer (5).

In addition, after manufacturing the anti-slip sheet, the prescribed structure (1
), or the base sheet (2) may be spread on the surface of the structure (1) in advance and then the elastomer layer (4) etc. may be formed thereon.

This anti-slip sheet includes not only an elastomer layer (4) but also elastic material chips (3) forming anti-slip protrusions (6).
) also has elasticity, so even if the anti-slip convex part (6
) has sharp edges, there is no risk of pain for people walking on them.

FIG. 2 shows another embodiment of the invention.

In this example, the elastic material chips (3) are directly sprinkled on the surface of the structure (1) without using the base sheet (2), and the liquid material is sprayed on top to form the elastomer layer (4). Moreover, the color coating layer (5) is not provided on the surface of the elastomer layer (4). The invention can also be implemented in this manner.

In this embodiment, when the sprayed liquid material hardens, it adheres to the surface of the structure (1) together with the elastic material chips (3), forming an elastomer layer (4).

The most suitable liquid material for forming the elastomer layer (4) is one consisting of a main component mainly composed of polyol and a curing agent mainly composed of isocyanate prepolymer.

An example of this liquid material is a highly reactive two-component polyurethane elastomer (manufactured by Bayer AG, West Germany, product name:
There is a two-component ultra-fast curing polyurethane elastomer produced by the applicant company based on BAYTEC. When this elastomer mixes two liquids, a base agent and a curing agent, and sprays the mixture onto the surface of a structure, it hardens at room temperature in a short time to form a film.

The above-mentioned polyurethane elastomer of the applicant company has 2
There are different types, all of which can be used. Its properties are as follows.

o 1 (Main ingredient) Appearance moisture content of main component H Viscosity (20°C) Density (20°C) Flash point Ignition point [Curing agent] Appearance viscosity of main component (20°C) Density (20°C) Polyether type Polyol yellow opaque liquid 0.1% or less0 3.0OOcps 1.05g/cm"165'C470"C Isocyanate prepolymer pale yellow transparent liquid 5.0OOcps 1.09g/cm" Flash point 150°C or higher Pour point - 19°C [Blending ratio] Weight ratio Main agent: Hardening agent = 100 near 7 volume ratio
Main agent: Curing agent-100 near 4o 2 [Main agent] Main component Polyether polyol Appearance
Yellow opaque liquid Moisture content 0.1% or less PH10 Viscosity (20°C) 3,000cps Density (20'C) 1.05g/cm' Flash point
165°C Ignition point 470°C [Curing agent] Main component Isocyanate prepolymer appearance
Pale yellow transparent liquid Viscosity (20°C) 12,000 cps Density (20°C) 1. 07 g/cm'' flash point
200°C or higher Pour point -5°C [Blending ratio] Weight ratio Main agent: Curing agent = 100:150 Volume ratio Main agent: Curing agent = 1007147 Elastomer layer formed using this polyurethane elastomer (4)
has elasticity, excellent abrasion resistance, and very strong adhesive strength. Therefore, it has sufficient durability even when used on the surface of a structure (1) on which people frequently walk. Also, if it peels off, it can be easily re-sprayed.

Using both of the above elastomers, we actually made a base sheet (
When spraying was performed on the surface of 2) to form an elastomer layer (4) with a thickness of about 2 mm on the surface, the excellent physical properties described above were exhibited.

For reference, the physical properties of this elastomer layer (4) at 20°C are shown below. The test method is JIS K 6350 for density, and JIS K 6350 for other tests.
It was carried out according to IS K 6301.

Density 0.975 Hardness (A type) 76° 100% tensile stress 45Kg/cm" 200% tensile stress 71Kg/cmz 300% tensile stress 104Kg/cm2 Tensile strength
126Kg/cm" Elongation at break 350% Tensile strength (Type B) 46Kg/cm The liquid material is not limited to those mentioned above, and it is of course possible to use other materials with equivalent properties. It is.

Although the above explanation has been made regarding the case where the invention is applied to a concrete surface by a pool, the object of application of this invention is not limited to this, but is applicable to other structures such as factory floors, rooftops, and bridges. Of course, it can also be applied to surfaces, ship decks, etc.

〔Effect of the invention〕

As is clear from the above description, the present invention has an excellent anti-slip effect because the anti-slip protrusions (6) are formed by the elastic chips (3) dispersed on the surface of the elastomer layer (4). Moreover, even if the surface gets wet with water, the anti-slip effect hardly decreases, and the anti-slip effect can be reliably achieved. Furthermore, since both the elastomer layer (4) and the elastic chip (3) have elasticity, even if a person falls on them, there is little risk of injury, resulting in high safety.

In addition, this invention can be used for anti-slip work or sheet manufacturing because it is only necessary to spray the liquid material onto the surface of the base sheet (2) or the required parts of the structure (1) after dispersing the elastic material chips (3). It is very easy to work with and can also be used to prevent slipping even on parts with complex shapes.

Furthermore, in this invention, it is only necessary to spray the liquid material and harden it, so by changing the number of times of spraying,
Another advantage is that the thickness of the elastomer layer (4) and thus the anti-slip effect and cushioning effect can be easily adjusted.

In addition, if a liquid material consisting of a main component mainly composed of polyol and a curing agent mainly composed of isocyanate prepolymer is used, it will harden in a very short time at room temperature, making it suitable for anti-slip work or sheet manufacturing work. It has the advantage of being quick and durable.

[Brief explanation of drawings]

FIG. 1 is a partial sectional view showing a structure reinforced by one embodiment of the method according to the invention, FIG. 2 is a partial sectional view showing a structure reinforced by another embodiment, and FIG. 3 is a partial sectional view showing a structure reinforced by another embodiment. FIG. 1 is an explanatory diagram showing an example of a method for manufacturing an anti-slip sheet according to the present invention. (1) Structure (2) Base sheet (3) Elastic material chip (4) Elastomer layer (5) Color coating layer (6) Anti-slip convex part

Claims (1)

[Claims] 1. Forming an elastomer layer on the surface of the structure by spraying elastic material chips on the surface of the structure, and spraying and curing a liquid material from above the elastic material chips. 1. A method for preventing slipping on a surface of a structure, comprising a step of fixing the elastomer layer, wherein a large number of anti-slip protrusions are formed on the elastomer layer by the elastic material chips. 2. A step of scattering elastic material chips on the surface of the base sheet; a step of forming and fixing an elastomer layer on the surface of the base sheet by spraying a liquid material from above the elastic material chips and curing it; and elastomer. and a step of laying the base sheet on which the layers are formed and fixed, on the structure, and the elastomer layer is characterized by having a large number of anti-slip protrusions formed by the elastic material chips. A method to prevent slipping on the surface of a structure. 3. The method for preventing slipping on the surface of a structure according to claim 1 or 2, wherein the liquid material is composed of a main agent containing a polyol as a main component and a curing agent containing an isocyanate prepolymer as a main component. 4. It comprises a base sheet, and an elastomer layer formed and fixed on one surface of the base sheet, in which chips of elastic material are dispersed to form a large number of anti-slip protrusions, and the elastomer layer has the elastic material An anti-slip sheet characterized in that it is formed by spraying a liquid material onto the base sheet from above the material chips and curing the material. 5. The anti-slip sheet according to claim 4, wherein the liquid material is composed of a main ingredient mainly composed of polyol and a curing agent mainly composed of isocyanate prepolymer.