KR200454394Y1 - UV excitation self surface emitting road sign - Google Patents

Abstract

The present invention relates to an ultraviolet excitation surface emitting road sign bottle, and more particularly, a main body, an ultraviolet light source, a protective layer, a surface emitting layer, to have a surface light emitting function in addition to a road sign bottle having a conventional retroreflective function. The cover layer is organically combined, and the power supply unit is composed of solar cells integrally with the main body so that it is environmentally friendly and is not restricted by the installation location for power supply. Ultraviolet excitation can be related to its own surface-emitting road sign.
The ultraviolet excitation surface emitting road sign according to the present invention is a road sign that is installed at regular intervals along the lane of the road so as to recognize the lane of the road to the driver to retroreflect the light irradiated from the driving vehicle toward the driver, A main body having a buried protrusion at a lower portion thereof so as to be embedded in a road, each of which has opening portions formed at both sides thereof, and a space portion formed therein in communication with the opening portion; An ultraviolet light source installed in the space part of the main body to receive power and irradiate light of ultraviolet wavelength in a direction toward the opening; A pair of protective layers each made of a material through which light is transmitted and provided between the ultraviolet light source and the openings on both sides; A pair of surface emitting layers stacked on the front surfaces of the pair of protective layers, respectively, in which fluorescent pigments and phosphorescent pigments are uniformly dispersed so as to surface-emit by light of ultraviolet wavelengths irradiated from the ultraviolet light source; The surface emitting layer and the protective layer are disposed behind the surface emitting layer to protect the surface emitting layer from the external impact or moisture, while partially emitting light emitted from the surface emitting layer and transmitting to the outside and retroreflecting a part of the light flowing from the outside. A pair of cover layers respectively coupled to both side openings of the main body in a supported state; A solar cell provided on an upper surface of the main body to collect power to produce power, a storage battery provided in a space part of the main body to charge electric power produced by the solar cell, and a space part of the main body; A power supply unit having a power controller for supplying and blocking power charged to the storage battery to the ultraviolet light source; An illuminance sensor provided at one side of an upper surface of the solar cell and configured to detect an ambient illuminance; A control unit provided in the space of the main body to control the power controller to supply power to the ultraviolet light source only under the illuminance set according to the illuminance detected by the illuminance sensor; It is characterized by including.

Description

ULTRAVIOLET EXCITED SELF SURFACE EMITTING ROAD STUD}

The present invention relates to an ultraviolet excitation surface emitting road sign bottle, and more particularly, a main body, an ultraviolet light source, a protective layer, a surface emitting layer, to have a surface light emitting function in addition to a road sign bottle having a conventional retroreflective function. The cover layer is organically combined, and the power supply unit is composed of solar cells integrally with the main body so that it is environmentally friendly and is not restricted by the installation location for power supply. Ultraviolet excitation can be related to its own surface-emitting road sign.

In general, road markers are installed where there is a need to supplement the functions of road marking, such as road center line, lane boundary, road edge zone line, dedicated lane, road obstacle, and safety zone.

1A shows a state of use of a general road sign bottle. The road sign bottle shows light when a headlight of a vehicle is illuminated on a road sign bottle 1 mounted at a predetermined position on a road at night or in bad weather conditions. Reflects from the reflector to help the driver easily identify the lane.

In FIG. 1B, a road sign bottle according to the prior art is illustrated. Referring to the drawings, the road sign bottle according to the prior art may have a wave in both sides of a rectangular or trapezoidal main body 10 'and reach a boundary with another medium. When the advancing direction is changed and the reflective paper 50 'having the retroreflective portion 51' retroreflecting so as to proceed in the original medium again, the buried projection 11 'protruding from the lower portion of the main body 10' is attached. Is installed on the road through.

Road signs according to the prior art, for example, after the production of the reflector by injection molding the cast structure by tightening the product, the situation is being separated on the road according to the use.

On the other hand, in recent years, there is a part that is used to attach the LED to the road sign bottle so that it emits itself, but there was a problem of causing a bad effect on safety due to the disturbance of the viewing angle due to the heat and glare of the LED.

That is, as in the prior art, it has only a retroreflective function, or it is difficult for the driver to secure a safe viewing angle by self-luminous by LEDs, and deteriorates the function of the road sign according to the condition of rain or fog and headlights. There was a problem that was a factor, and in the case of a road sign that has only a retroreflective function, when the headlights such as pedestrians cannot be turned on, there is a problem that the safety of the pedestrians is threatened due to remarkable deterioration.

The present invention has been made to solve the problems of the prior art as described above, the object of the present invention is to provide a surface light emitting function in addition to the existing road sign only has a retroreflective function body, ultraviolet light source, and a protective layer and The organic light emitting layer and the cover layer are organically combined, and the power supply unit is integrated with the main body, so it is environmentally friendly and is not restricted by the installation location for power supply. It is to provide a self-excited surface-emitting road sign that can save energy by saving energy.

In order to achieve the above object, the ultraviolet excitation surface emitting road sign according to the present invention is installed at regular intervals along the lane of the road so that the driver recognizes the lane of the road and returns the light irradiated from the driving vehicle toward the driver. A road marking bottle for reflecting, comprising: a main body having a buried projection at a lower portion so as to be embedded in a road, and having openings formed at both sides thereof, and having a space portion communicating therewith; An ultraviolet light source installed in the space part of the main body to receive power and irradiate light of ultraviolet wavelength in a direction toward the opening; A pair of protective layers each made of a material through which light is transmitted and provided between the ultraviolet light source and the openings on both sides; A pair of surface emitting layers stacked on the front surfaces of the pair of protective layers, respectively, in which fluorescent pigments and phosphorescent pigments are uniformly dispersed so as to surface-emit by light of ultraviolet wavelengths irradiated from the ultraviolet light source; The surface emitting layer and the protective layer are disposed behind the surface emitting layer to protect the surface emitting layer from the external impact or moisture, while partially emitting light emitted from the surface emitting layer and transmitting to the outside and retroreflecting a part of the light flowing from the outside. A pair of cover layers respectively coupled to both side openings of the main body in a supported state; A solar cell provided on an upper surface of the main body to collect power to produce power, a storage battery provided in a space part of the main body to charge electric power produced by the solar cell, and a space part of the main body; A power supply unit having a power controller for supplying and blocking power charged to the storage battery to the ultraviolet light source; An illuminance sensor provided at one side of an upper surface of the solar cell and configured to detect an ambient illuminance; A control unit provided in the space of the main body to control the power controller to supply power to the ultraviolet light source only under the illuminance set according to the illuminance detected by the illuminance sensor; It is characterized by including.

In addition, the ultraviolet excitation surface emitting road sign according to the present invention, wherein the ultraviolet light source is provided in the center of the space portion of the main body, the main body, the light irradiated from the ultraviolet light source is reflected in the direction toward both openings It is formed concave in a shape surrounding the ultraviolet light source so as to converge to each other, characterized in that the space portion is further provided with a pair of reflecting plate installed in a direction opposite to each other with respect to the ultraviolet light source.

According to the above configuration, the ultraviolet excitation surface emitting road sign according to the present invention is organically coupled to the main body, the ultraviolet light source, the protective layer, the surface emitting layer, and the cover layer to the existing road sign bottle having only retroreflective function. Compared to rainy weather or fog, the driver enhances the identification and makes it possible for pedestrians to improve comfortable viewing angle and safety.The power supply unit is integrated with the main body to provide environmentally friendly power. There is an effect that is not restricted by the installation place for, and it is possible to save energy by operating only under a certain illuminance through the illumination sensor.

Figure 1a is a state diagram of the use of a general road marker
Figure 1b is a side cross-sectional view of a road sign according to the prior art
2 is a side cross-sectional view of an ultraviolet excitation surface emitting road sign according to an embodiment of the present invention;
Figure 3 is a plan view of the main part of the ultraviolet excitation surface emitting road sign itself according to an embodiment of the present invention

Hereinafter, with reference to the embodiment shown in the drawings will be described in more detail the ultraviolet excitation surface emitting road sign according to the present invention.

2 is a side cross-sectional view of an ultraviolet excitation surface emitting road sign according to an embodiment of the present invention, Figure 3 is a plan view of the main part of the ultraviolet excitation surface emitting road sign according to an embodiment of the present invention.

Referring to the drawings, the ultraviolet excitation surface emitting road sign according to an embodiment of the present invention is the main body 10, the ultraviolet light source 20, a pair of protective layer 30, a pair of surface emitting layer 40 And a pair of cover layers 50, a power supply unit 60, an illuminance sensor 70, and a controller 80.

The road sign bottle refers to a road facility installed at regular intervals along the lanes of the road so as to recognize the lane of the road to the driver as shown in FIG. 1A to retroreflect light emitted from the driving vehicle toward the driver.

The main body 10 is combined with the cover layer 50 to form the outer shape of the road sign bottle according to the present invention, the ultraviolet light source 20, the protective layer 30 and the surface light emitting layer 40 to the outside The buried projection 11 is provided at the lower portion so as to be embedded in the road in order to protect it from impact or moisture, and openings 12 are formed at both sides to couple the cover layer 50 to each other, and the opening ( 12 is formed in communication with the space portion 13, wherein the space portion 13, the battery 62 and the power controller 63, which is the configuration of the ultraviolet light source 20, the power supply unit 60, And the control unit 80 is built-in to form a simple appearance.

In addition, when the ultraviolet light source 20 is provided in the space 13 of the main body 10 in the center of the space 13 of the main body 10 as shown in Figure 3 the ultraviolet light source 20 ) Is irradiated with light is formed in a concave shape to surround the ultraviolet light source 20 so as to converge in the direction toward both openings 12, respectively, in a direction facing each other around the ultraviolet light source (20) A pair of reflecting plates 14a and 14b are provided.

That is, the main body 10 is the light portion irradiated from the ultraviolet light source 20 due to the configuration of the reflector 14, as well as providing a place for the space portion 13 is the ultraviolet light source 20 is installed. The reflection and convergence in the direction toward the opening 12 serve to increase the luminous efficiency.

On the other hand, it is also possible to form a diffuser (not shown) bent in a predetermined pattern on the surface of the reflector 14 so that the light reflected from the reflector 14 is reflected and diffused.

The ultraviolet light source 20 is installed in the center of the space portion 13 of the main body 10, receives power from the power supply unit 60 to irradiate light of the ultraviolet wavelength in the direction toward the opening 12 Configuration.

The ultraviolet light source 20 is an effect that is exhibited by the organic coupling relationship with the surface light emitting layer 40 surface-emitting by the light of the ultraviolet wavelength in one embodiment of the present invention.

The pair of protective layers 30 serve as a base on which the surface light emitting layer 40 can be stacked, protect the surface light emitting layer 40 from moisture, and prevent the surface light emitting layer 40 from curing. Consists of a material that transmits light in a configuration is provided between the ultraviolet light source 20 and the both side openings 12, respectively.

That is, the protective layer 30 is a material through which light is transmitted, which is required to be resistant to moisture. For example, an epoxy resin, a hard silicone resin, a modified silicone resin, an acrylic resin, a polycarbonate resin, a polyimide resin, The protective layer 30 may be made of PET resin or the like.

On the other hand, the protective layer 30 may be in a flat form, or may have a certain curvature form to adjust the optical acid, light extraction characteristics.

The pair of surface light emitting layers 40 are respectively laminated on the front surface of the pair of protective layers 30, and the fluorescent pigment and the photoluminescent pigment are surface-emitted by the light of the ultraviolet wavelength irradiated from the ultraviolet light source 20. It is configured to be uniformly distributed.

In more detail with respect to the configuration of the surface light emitting layer 40, the surface light emitting layer 40 in one embodiment of the present invention absorbs light of the ultraviolet wavelength irradiated from the ultraviolet light source 20 of the other wavelength A fluorescent pigment for converting wavelengths into light, a phosphorescent pigment that absorbs and accumulates light of ultraviolet wavelengths irradiated from the ultraviolet light source 20 and gradually emits and emits light accumulated in a predetermined illuminance environment; It consists of a binder for firmly adhering fluorescent pigments, and a dispersant for uniformly dispersing the phosphorescent pigments and fluorescent pigments.

On the other hand, the surface light emitting layer 40 is preferably composed of 1 to 6% by weight of the fluorescent pigment, 1 to 3% by weight of the photoluminescent pigment, 90 to 95% by weight of the binder, and 1 to 5% by weight of the dispersant, The surface light emitting layer 40 is preferably made of a thickness of 50 ~ 300nm.

The fluorescent pigment absorbs light by the primary light emission of the ultraviolet light source 20 and then emits secondary light. The phosphor contained in the fluorescent pigment absorbs the wavelength of the ultraviolet light source 20 to emit light of a different wavelength. Both organic and inorganic phosphors that convert wavelengths can be used.

For example, the fluorescent pigments are mainly energized by nitride / oxynitride-based phosphors, which are mainly energized by lanthanoid-based elements such as Eu and Ce, lanthanoids such as Eu, and transition metal-based elements such as Mn. Lanthanoids such as alkaline earth halogen apatite phosphors, alkaline earth metal boric acid halogen phosphors, alkaline earth metal maleate salt phosphors, alkaline earth silicates, alkaline earth emulsions, alkaline earth thigallates, alkaline earth silicon nitrides, germanate or Ce It is preferable that it is at least one or more selected from the organic and organic complexes etc. which are mainly received by the lanthanoid type element, such as rare earth aluminate, rare earth silicate, or Eu which are mainly energized by an element.

Other phosphors used as the fluorescent pigment include ZnS: Eu, Zn ₂ GeO ₄ : Mn, MGa ₂ S ₄ : Eu, and the like, and phosphors having the same performance or effect as phosphors other than the above-described phosphors may also be used.

The photoluminescent pigment is an inorganic pigment that absorbs, accumulates, and emits light having a property of absorbing and accumulating light having an ultraviolet wavelength emitted from the ultraviolet light source 20 and gradually emitting and emitting light accumulated in a predetermined illuminance environment. The process can be performed in any number of times, and the photoluminescent pigment has a shorter photoluminescence time and longer afterglow time than light having a visible wavelength due to an organic coupling relationship with the ultraviolet light source 20. You have an advantage.

As the phosphorescent pigments, alkaline earth aluminate series and silica earth aluminate series may be used.

The binder has a function of firmly attaching the phosphorescent pigment and fluorescent pigment 20 to 40% by weight of polymethylmethacrylate (PMMA), 50 to 70% by weight of polyethylene glycol monoethyl ether acetate (Ethyl Carbitol Acetate) (ECA), the rest It is preferable to consist of an additive.

The pair of cover layers 50 are surface-emitted from the surface light emitting layer 40 and the light emitted is transmitted to the outside, and a part of the light flowing from the outside is retroreflected by the retroreflective part 51 formed on the surface. In one embodiment of the present invention in such a configuration that the surface light emitting layer 40 and the protective layer 30 is supported behind the main body 10 so as to protect the surface light emitting layer 40 from external impact or moisture. Are coupled to both side openings 12).

On the other hand, the edge of the opening portion 12 and the cover layer 50 of the main body 10 it will be desirable to finish with silicon or sealing tape to maintain the watertight.

The power supply unit 60 is configured to supply power to the ultraviolet light source 20 and includes a solar cell 61, a storage battery 62, and a power controller 63.

The solar cell 61 is configured to produce power by condensing sunlight and is integrally provided on the upper surface of the main body 10. The present invention does not use a commercial power source by generating power by itself as described above. It is not only easy to install and install because it does not require distribution work, but also uses low DC voltage, so there is little risk of electric shock accident due to short circuit during rain or flooding, and uses energy source from nature. In this respect, it will have the advantage of utilizing alternative energy.

The storage battery 62 is configured to charge the power generated from the generator 11, the power controller 63 is controlled by the control unit 80 and the power charged in the storage battery 62 is the ultraviolet light source. It is configured to supply and block 20, the battery 62 and the power controller 63 is provided in the space portion 13 of the main body 10 to integrate the power supply unit 60 with the main body. You can configure it.

The illumination sensor 70 is provided on one side of the upper surface of the solar cell 61 so as to sense the ambient light and transmit the detected light to the controller 80 to effectively detect the ambient light. .

The control unit 80 is provided in the space 13 of the main body 10 to control the lighting of the ultraviolet light source 20 only under the illuminance set according to the illuminance detected by the illuminance sensor 70. It is configured to control the power controller 63 to supply power to the ultraviolet light source (20).

That is, when the ultraviolet light source 20 is controlled to be turned on only at a predetermined time through a timer, there is a problem that the ultraviolet light source 20 does not light on rainy or cloudy days, and the illumination sensor 70 and the controller ( Due to the organic coupling relationship of 80), when the surroundings are below a certain illuminance, the ultraviolet light source 20 is turned on to solve the above problem.

The ultraviolet excitation surface emitting road sign described above and shown in the drawings is only one embodiment for carrying out the present invention, and should not be construed as limiting the technical idea of the present invention. The scope of protection of the present invention is determined only by the matters described in the following Utility Model Registration Claims, and the embodiments of the present invention which have been improved and changed without departing from the gist of the present invention are obvious to those skilled in the art. As long as it is one of the protection scope of the present invention.

10 main unit
11 buried protrusion
12 opening
13 space
14 reflector
20 UV light source
30 protective layer
40 surface emitting layer
50 cover layers
51 Retroreflective
60 Power Supply
61 solar cell
62 storage battery
63 Power Controller
70 Ambient Light Sensor
80 control unit

Claims (2)

In the road sign bottle installed at regular intervals along the lane of the road to make the driver recognize the lane of the road to retroreflect the light irradiated from the driving vehicle toward the driver,
A main body having a buried protrusion at a lower portion thereof so as to be embedded in a road, each of which has opening portions formed at both sides thereof, and a space portion formed therein in communication with the opening portion;
An ultraviolet light source installed in the space part of the main body to receive power and irradiate light of ultraviolet wavelength in a direction toward the opening;
A pair of protective layers each made of a material through which light is transmitted and provided between the ultraviolet light source and the openings on both sides;
A pair of surface emitting layers stacked on the front surfaces of the pair of protective layers, respectively, in which fluorescent pigments and phosphorescent pigments are uniformly dispersed so as to surface-emit by light of ultraviolet wavelengths irradiated from the ultraviolet light source;
The surface emitting layer and the protective layer are disposed behind the surface emitting layer to protect the surface emitting layer from the external impact or moisture, while partially emitting light emitted from the surface emitting layer and transmitting to the outside and retroreflecting a part of the light flowing from the outside. A pair of cover layers respectively coupled to both side openings of the main body in a supported state;
A solar cell provided on an upper surface of the main body to collect power to produce power, a storage battery provided in a space part of the main body to charge electric power produced by the solar cell, and a space part of the main body; A power supply unit having a power controller for supplying and blocking power charged to the storage battery to the ultraviolet light source;
An illuminance sensor provided at one side of an upper surface of the solar cell and configured to detect an ambient illuminance;
A control unit provided in the space of the main body to control the power controller to supply power to the ultraviolet light source only under the illuminance set according to the illuminance detected by the illuminance sensor; Ultraviolet excitation surface emitting road sign, characterized in that it comprises a. The method of claim 1,
The ultraviolet light source is provided in the center of the space portion of the main body,
The main body is concave in a shape that surrounds the ultraviolet light source so that the light irradiated from the ultraviolet light source is reflected and converge in the direction toward both openings, respectively, and the space is opposed to each other centering around the ultraviolet light source. Ultraviolet excitation surface emitting road sign bottle characterized in that it is further provided with a pair of reflecting plate installed.

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