JP3634584B2 - Self-cleaning gaze guidance sign - Google Patents

Description

【００２７】
表１の結果より、ブラックライトによる紫外光を照射した直後における水との接触角は実施例は約５度であり、比較例は８２度であることから、実施例の表面は極めて親水化されていることが確認される。
【００２８】
また反射輝度を比較すると、実施例は比較例に比べて、反射性能が屋外暴露後においても良好な状態で維持されており、前記二酸化チタンによる活性化及び活性化による親水化等によって、表面は汚染物質が付着しにくくなっていることが確認される。
【００２９】
【発明の効果】
本発明によれば、塵埃や車両の排気ガス等の汚染物質が標示面の表面に付着しても、活性化された二酸化チタンの強い酸化力によって汚染物質が分解されると共に、親水化された表面によって、表面に付着する汚染物質と表面との間に水が割り込んで汚染物質を浮かせるために付着しにくく、また付着しても降雨等により容易に洗い流されて除去されるため、汚染物質が堆積しにくく、標示面の視認性を長期にわたって良好な状態で維持できる。
【００３０】
また前記被膜と標示面との間には、シロキサン結合によって二酸化チタンの活性による強い酸化力に侵されにくいシリコーン系塗料による下塗り層が形成されているので、二酸化チタンの活性化により標示面を形成する合成樹脂や金属等が侵されることはない。
【図面の簡単な説明】
【図１】デリニェーターとして用いられる本発明の実施の一形態を示す正面図である。
【図２】ポールコーンとして用いられる本発明の実施の一形態を示す正面図である。
【図３】図１における主要部の断面図である。
【図４】図２における主要部の断面図である。
【符号の説明】
１ 支柱
２ 枠体
３ 標示面
４ 柱状体
５ 反射体
６ 下塗り層
７ 被膜[0001]
BACKGROUND OF THE INVENTION
The present invention is installed at a side edge of a road, a median strip, etc. to guide the driver of the vehicle, and in particular, dirt adhered to the marking surface is cleaned by rain or the like. The present invention relates to a self-cleaning gaze guidance sign.
[0002]
[Prior art]
As a line-of-sight guidance object for guiding the line of sight to the vehicle driver installed on the road, for example, a marking surface made of a retroreflector is formed on the upper end of the column toward the driver of the vehicle. There are so-called delineators, snow poles, etc., where the marking surface shines brightly to guide the line of sight by retroreflecting light toward the driver with this retroreflector, and the side surface of the columnar body is the marking surface As described above, a reflector made of a retroreflective sheet is attached to the marking surface, and the reflective surface is retroreflected toward the driver by the retroreflector in the same manner as described above, so that the marking surface is bright and shines to guide the line of sight There have been so-called pole cones.
[0003]
[Problems to be solved by the invention]
However, since the gaze guidance sign as described above is installed on the road and is always exposed to the exhaust gas and dust of the vehicle, if it is not cleaned occasionally, the exhaust gas and dust adhere to the marking surface and become dirty. There is a problem of reducing the visual performance. However, since manual cleaning is very troublesome and laborious, for example, in a delineator, as described in Japanese Utility Model Publication No. 55-27685, a blade piece is attached to the front surface of the marking surface. There is one in which the marking surface is automatically cleaned by a wiper attached to the blade piece when it is rotated by wind power, and the pole cone is described in JP-A-7-138920. In addition, there is a type in which a wiper that is swung by wind force is hung on the front surface of the marking surface, and the wiper is swung by wind force to be automatically cleaned.
[0004]
However, in the case where the marking surface is cleaned with the wind force as described above, since the blade surface and the wiper are attached to the front surface of the marking surface, the marking surface is blocked by these and the visibility is as much as the area. There is a problem of lowering, and it is troublesome to install a blade piece or wiper. Further, it is unsightly in terms of scenery and aesthetics, and in the long term, dirt accumulates on the blade piece and wiper and the visibility is still lowered. There were problems such as being unsightly.
[0005]
Accordingly, the present invention is intended to solve the above-mentioned problems and provide a self-cleaning gaze guidance sign that is preferable from the viewpoint of scenery and aesthetics and that can remove dirt on the marking surface without accumulating dirt.
[0006]
[Means for Solving the Problems]
In order to achieve the above object, the present invention is configured as follows.
That is, in the self-cleaning gaze guidance sign according to the present invention, an undercoat layer made of a silicone-based paint is formed on a marking surface visually recognized by a vehicle driver for gaze guidance, and contains titanium dioxide as a photocatalyst thereon. The coating is formed, and when the coating is irradiated with ultraviolet light, the titanium dioxide is activated and the surface thereof is made hydrophilic, and contaminants adhering to the surface are washed away by rain or the like. The marking surface is made of a retroreflector that is attached to a frame made of an aluminum alloy attached to the upper end of the support and the back surface of the translucent synthetic resin plate is diamond-cut, or to a vehicle or the like. A side surface of a columnar body made of a flexible synthetic resin that has resilience even when stepped on is used as a marking surface, and the marking surface has a reflection made of a retroreflective sheet. There all SANYO stuck to the circumferential, subbing layer with a silicone-based paint formed on the sign surface, the multi-functional siloxane as a main component, a coating film by a dehydration condensation reaction of silanol groups It consists of the silicone hard-coat agent which forms .
[0007]
According to the present invention, since the coating made hydrophilic by activating titanium dioxide as a photocatalyst is formed on the surface of the marking surface, contaminants such as dust and vehicle exhaust gas are formed on the surface of the marking surface. Even if it adheres, the pollutants are decomposed by the strong oxidizing power of the activated titanium dioxide, and water is inserted between the contaminants adhering to the surface and the contaminants by the hydrophilic surface. It is difficult to adhere because it floats, and even if it adheres, it is easily washed away by rain or the like and removed, so that pollutants hardly accumulate and the visibility of the marking surface can be maintained in a good state for a long time.
[0008]
In addition, an undercoat layer made of a silicone-based paint that is not easily affected by the strong oxidizing power due to the activity of titanium dioxide is formed between the coating and the marking surface, so that the marking surface is activated by the activation of titanium dioxide. The formed synthetic resin and metal are not attacked.
[0009]
DETAILED DESCRIPTION OF THE INVENTION
Next, embodiments of the present invention will be specifically described with reference to the drawings.
1 is a front view showing an embodiment of the present invention used as a delineator, FIG. 2 is a front view showing an embodiment of the present invention used as a pole cone, and FIG. 3 is shown in FIG. 4 is a cross-sectional view of the main part, and FIG. 4 is a cross-sectional view of the main part in FIG.
[0010]
First, in FIG. 1, a frame 2 made of an aluminum alloy is attached to the upper end of a support 1, and a marking surface 3 made of a retroreflector is attached to the frame 2 toward the driver of the vehicle. By retroreflecting the light toward the driver with this retroreflector, the marking surface 3 shines brightly, and the gaze guidance is performed by causing the vehicle driver to visually recognize the marking surface 3. It is what.
[0011]
The marking surface 3 made of the retroreflector is obtained by diamond-cutting the back surface of a translucent synthetic resin plate made of polycarbonate, acrylic resin, or the like. Reflected by the cut, the light is reflected in the irradiated direction.
[0012]
On the other hand, in FIG. 2, the side surface of the columnar body 4 having a conical shape formed of a synthetic resin having flexibility such as rubber or soft urethane so as to have resilience even when stepped on a vehicle or the like is used as the marking surface 3. In order to guide the line of sight by causing the vehicle driver to visually recognize the marking surface 3, a reflector 5 made of a retroreflective sheet is provided on the marking surface in order to improve night visibility. Pasted into a shape.
[0013]
1 and 2, as shown in FIGS. 3 and 4, an undercoat layer 6 made of a silicone-based paint is first formed on the marking surface 3, and titanium dioxide as a photocatalyst is further formed thereon. The coating film 7 is formed, and the titanium dioxide-containing coating film 7 is activated by irradiating ultraviolet light to activate the titanium dioxide so that the surface thereof becomes hydrophilic. It is designed to be washed.
[0014]
The silicone-based paint forming the undercoat layer 6 is formed of a synthetic resin having inferior heat resistance on the marking surface 3, and therefore has a very high reactivity (curability) and a relatively low temperature around 100 ° C. A commercially available product called a so-called silicone hard coat agent, in which a silicone compound is dissolved in an alcohol solvent that hardens and does not easily attack the synthetic resin, is used. This silicone hard coat agent is composed mainly of polyfunctional siloxane, and forms a hard thin film by dehydration condensation reaction of silanol groups, mainly for improving the wear resistance of polycarbonate and acrylic resin surfaces. It is used. An example of such a silicone hard coat agent is Tosgard 510 manufactured by Toshiba Silicone Co., Ltd. (PH91 manufactured by the company as a curing agent).
[0015]
Further, in order to form the coating film 7 containing titanium dioxide as a photocatalyst, a thermal spraying method in which titanium dioxide powder is melted and sprayed, a CVD (chemical film forming method) in which titanium dioxide is deposited through a chemical reaction, titanium dioxide Sputter deposition method, vacuum deposition method, etc., which deposits by sputtering evaporation may be used, but it is uniform if titanium dioxide is dispersed in the binder to form a coating composition, which is applied by dipping, spraying, flow coater, etc. And since the smooth film 7 is formed, it is preferable.
[0016]
When the film 7 is formed by such a method, it is preferable to use a silicone compound as a binder. By using a silicone compound, the coating film 7 obtained has a high surface hardness and is hardly damaged, and is also deteriorated by activated titanium dioxide or the like due to excellent chemical resistance and stain resistance due to the siloxane bond. In addition, it is difficult for contaminants to adhere to the coating layer. Further, since the coating material is similar to the undercoating layer 6 made of a silicone-based coating material, it can be firmly adhered to the undercoating layer 6. The coating 7 is preferably formed as thin as possible so as not to impair the visibility of the marking surface 3 so as to have transparency.
[0017]
In addition, when forming the film 7 using a silicone compound as a binder, for example, as an example, a coating composition comprising a mixture of hydrolyzate of alkoxysilane such as organopolysiloxane or tetraethoxysilane and titania sol is applied. It can form by heating at 50 to 200 degreeC.
[0018]
Titanium dioxide as a photocatalyst may be a rutile type, but is preferably anatase type because of its high activity, and is activated by irradiating the titanium dioxide with ultraviolet light having a wavelength region of 300 to 400 nm. As a result, the strong oxidizing power is expressed and the contaminants adhering to the surface are decomposed, and the surface is hydrophilized to about 0 to 20 degrees in contact angle with water by the activation, and the hydrophilization contaminates the surface. Substances are less likely to adhere, and even if they adhere, they are easily washed away by rainfall or the like.
[0019]
The ultraviolet light that activates titanium dioxide may be installed on the road and receive from sunlight, but when it is installed on the road by irradiating it with black light etc. in advance in a factory etc. The titanium dioxide may be activated to make the coating 7 hydrophilic.
[0020]
【Example】
Examples of the present invention will be described below.
[0021]
(Example)
A marking surface is formed by a retroreflector made of polycarbonate, and a silicone-based paint made of a silicone hard coat agent is applied to the marking surface by dipping, and is cured by heating in an atmosphere at 100 ° C. for 1 hour, and then is primed with a silicone-based paint. A layer was formed. Next, a coating composition containing titanium dioxide containing silicone as a binder was applied on the undercoat layer by dipping and heat-cured in an atmosphere at 100 ° C. for 1 hour to form a coating containing titanium dioxide as a photocatalyst. . Furthermore, the embodiment according to the present invention is used as a delineator in which the surface of the coating is irradiated with ultraviolet light at an illuminance of 1.0 mW / cm ² for 10 hours using black light to activate titanium dioxide to make the surface hydrophilic. As a self-cleaning gaze guidance sign.
[0022]
(Comparative example)
Creates a line-of-sight guidance sign as a comparative example that is used as a delineator in which an undercoat layer made of a silicone-based paint and a coating containing titanium dioxide as a photocatalyst are not formed on the sign surface formed by a retroreflector made of polycarbonate Even in this comparative example, ultraviolet light was irradiated using black light in the same manner as in the example.
[0023]
For the examples and comparative examples, first of all, the contact angle with water immediately after irradiation with ultraviolet light by black light was measured, and exposed outdoors for 61 days, and the reflection luminance before and after outdoor exposure was measured, The results are shown in Table 1.
[0024]
In addition, the contact angle with water measured the contact angle with respect to water at normal temperature by the droplet method using the contact angle meter (Kyowa Interface Science Co., Ltd. brand name: CA-X150 type | mold).
[0025]
Reflection brightness is changed by changing the observation angle to 0.2 degree, 0.5 degree, and 1.5 degree by applying a light source to the test piece, and the incident angle at each observation angle is 0 degree, 10 degree, and 20 degree. It was measured. The observation angle is the angle between the line connecting the test piece and the light source and the line connecting the observation point and the test piece, and the incident angle is the line connecting the test piece and the light source. It is an angle formed with a normal line standing on the surface of the test piece, and the measurement result is indicated by reflected light intensity (cd) from the test piece / illuminance on the reflector surface (10.76 lx).
[0026]
[Table 1]

[0027]
From the results of Table 1, since the contact angle with water immediately after irradiation with ultraviolet light by black light is about 5 degrees in the example and the comparative example is 82 degrees, the surface of the example is extremely hydrophilized. It is confirmed that
[0028]
Also, when comparing the reflection luminance, the example is maintained in a good state of reflection performance after outdoor exposure, compared with the comparative example, the surface by the activation by the titanium dioxide and the hydrophilization by the activation, etc. It is confirmed that the contaminants are less likely to adhere.
[0029]
【The invention's effect】
According to the present invention, even if contaminants such as dust and vehicle exhaust gas adhere to the surface of the marking surface, the contaminants are decomposed and hydrophilized by the strong oxidizing power of activated titanium dioxide. Depending on the surface, the contaminants adhere to the surface and the water enters between the surfaces, causing the contaminants to float, making it difficult for them to adhere, and even if they adhere, they are easily washed away and removed by rain, etc. It is difficult to deposit, and the visibility of the marking surface can be maintained in a good state for a long time.
[0030]
In addition, an undercoat layer made of a silicone-based paint that is not easily affected by the strong oxidizing power due to the activity of titanium dioxide is formed between the coating and the marking surface, so the marking surface is formed by the activation of titanium dioxide. Synthetic resin and metal are not attacked.
[Brief description of the drawings]
FIG. 1 is a front view showing an embodiment of the present invention used as a delineator.
FIG. 2 is a front view showing an embodiment of the present invention used as a pole cone.
FIG. 3 is a cross-sectional view of a main part in FIG.
4 is a cross-sectional view of a main part in FIG. 2;
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 1 Support | pillar 2 Frame 3 Marking surface 4 Columnar body 5 Reflector 6 Undercoat layer 7 Coating

Claims (2)

An undercoat layer made of a silicone-based paint is formed on a marking surface to be visually recognized by the vehicle driver to guide the line of sight, and a coating containing titanium dioxide as a photocatalyst is formed thereon, and the coating is irradiated with ultraviolet light. As a result, the surface of the titanium dioxide is activated and the surface thereof is hydrophilized, and contaminants adhering to the surface are washed away by rain or the like, and the marking surface is made of aluminum attached to the upper end of the column. From a flexible synthetic resin that is attached to a frame made of an alloy and is made of a retroreflector whose rear surface of the transparent synthetic resin plate is diamond-cut, or has resilience even when stepped on a vehicle or the like on its marking surface with the side surface of the formed columnar body is made with marking surface all SANYO the reflector comprising a retroreflective sheet is adhered circumferentially, said marking Subbing layer by silicone coating formed above, a multi-functional siloxane as a main component, self-cleaning visual guidance, characterized in that a silicone hard coating agent for forming a coating film by a dehydration condensation reaction of silanol groups Marking body. 2. The self-cleaning type according to claim 1, wherein the coating containing titanium dioxide as a photocatalyst is formed by applying a coating composition comprising a mixture of an alkoxylane hydrolyzate and titania sol. Gaze guidance sign.

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