KR102603015B1 - Crosswalk Marking Device Using Electronic Ink - Google Patents

Abstract

The present invention relates to a crosswalk display device using electronic ink. By printing and displaying a crosswalk in a selected color using electronic ink, not only can the driver easily determine the location of the crosswalk, This invention is about a technology that enables efficient use of electrical energy by using electronic ink. Specifically, the bottom surface of the road includes an electronic ink layer 110 including microcapsules 111 that accommodate a plurality of particles that move according to the control of electric current and an electrode substrate 112 that controls the movement of the particles. A crosswalk module 100 forming a crosswalk; It consists of a main component including a control unit 200 that receives signal information from the traffic light 1 and controls the electronic ink layer 110 to output the selected color.

Description

Crosswalk Marking Device Using Electronic Ink}

The present invention relates to a crosswalk display device using electronic ink. By printing and displaying a crosswalk in a selected color using electronic ink, not only can the driver easily determine the location of the crosswalk, This invention is about a technology that enables efficient use of electrical energy by using electronic ink.

Patent Document 001 relates to a crosswalk light-emitting display device that allows drivers to easily identify crosswalks in rainy weather or at night and efficiently prevents large-scale traffic accidents. There are many crosswalks on roads where crosswalks are installed. A technology is proposed that includes a light-emitting unit that is installed embedded in a dog, and a control unit that controls the light-emitting pattern of the light-emitting unit in conjunction with a traffic signal.

Patent Document 002 includes a display device installed on a road border in a crosswalk area and configured to irradiate light toward the crosswalk; A control unit that is connected to a traffic light and turns on the display device when the green light of the pedestrian traffic light turns on; is configured to illuminate the crosswalk when a pedestrian signal is signaled through a display device that is connected to the traffic light and installed on the road curb to inform the driver. We present technologies that are effective in preventing traffic accidents by maximizing caution, visual effects, and awareness for traffic safety.

Patent Document 003 is a solar panel that receives sunlight and produces electricity; a battery unit that receives and charges power produced by the solar panel; And an LED unit that includes a plurality of LEDs and is turned on or off in accordance with a control signal transmitted wirelessly from the outside. The battery unit transmits power from a primary battery, a plurality of secondary batteries, and the solar panel. A technology including a solar cell that receives and charges the secondary battery and a BMS (Battery Management System) that controls the primary battery, the secondary battery, and the solar cell is proposed.

Patent Document 004 describes the road surface of a crosswalk: a plurality of crosswalk bars 100 having a predetermined width (W) and a length (L) are placed across the roadway at a predetermined interval (S). A technology is proposed in which the crosswalk bars 100 are displayed in parallel and a plurality of arrow-shaped patterns 110 are formed on the crosswalk bars 100 to distinguish the direction of movement of pedestrians.

KR 10-2011-0051303 A (Publication date May 18, 2011) KR 10-2017-0019841 A (Publication date February 22, 2017) KR 10-2020-0104186 A (Publication date September 3, 2020) KR 20-0222327 Y1 (registration date February 20, 2001)

The present invention relates to a crosswalk display device using electronic ink. By printing and displaying a crosswalk in a selected color using electronic ink, not only can the driver easily determine the location of the crosswalk, This invention is about a technology that enables efficient use of electrical energy by using electronic ink.

The present invention relates to a crosswalk display device using electronic ink, which includes a microcapsule 111 that accommodates a plurality of particles that move under the control of electric current and an electrode substrate 112 that controls the movement of the particles. A crosswalk module 100 that includes a layer 110 and forms a crosswalk on the bottom surface of the road; It includes a control unit 200 that receives signal information in connection with the traffic light 1 and controls the electronic ink layer 110 to output the selected color.

The present invention relates to a crosswalk display device using electronic ink, and the crosswalk module 100 further includes a protective layer 120 formed on the electronic ink layer 110.

The present invention relates to a crosswalk display device using electronic ink. The crosswalk module 100 accommodates white and black particles in the microcapsule 111, and changes the color output through the white particles. It includes a color conversion layer 130 formed of an RGB filter.

The present invention relates to a crosswalk display device using electronic ink, wherein the electronic ink layer 110 controls particles having a selected color capable of reflecting light on the microcapsule 111 to output the selected color or , the selected color is output by controlling the combination of at least two or more particles with different colors capable of reflecting light.

The present invention relates to a crosswalk display device using electronic ink, and the particles contained in the microcapsule 111 include a luminous layer formed of a luminous material.

The present invention relates to a crosswalk display device using electronic ink, and the crosswalk module 110 includes a light source unit 150 that functions as a light source.

The present invention relates to a crosswalk display device using electronic ink, wherein the control unit 200 includes a vehicle identification unit 220 that identifies an approaching vehicle, and when the vehicle is in a selected situation, the electronic ink layer 110 Control this to blink.

The present invention relates to a crosswalk display device using electronic ink, which includes the electronic ink layer 110 to form a floor surface on the sidewalk and outputs time information of the signal through control of the control unit 200. It further includes an information module (100-1).

The present invention has the effect of allowing drivers to easily determine the location of the crosswalk by displaying the crosswalk with a selected color using electronic ink. The present invention has the effect of enabling efficient use of electrical energy because electrical energy is used only when color is converted using electronic ink. The present invention has the effect of preventing frequent contact accidents between right-turning vehicles and pedestrians by enabling drivers with narrow vision to easily determine the location of the crosswalk when turning right and approaching the crosswalk.

Figure 1 is a conceptual diagram of a crosswalk display device using electronic ink of the present invention.
Figure 2 is a conceptual diagram of the electronic ink layer of the present invention.
Figure 3 is a cross-sectional view of the crosswalk module of the present invention.
Figure 4 is another cross-sectional view of the crosswalk module of the present invention.
Figure 5 is another conceptual diagram of the electronic ink layer of the present invention.
Figure 6 is another cross-sectional view of the crosswalk module of the present invention.
7 is a conceptual diagram of the present invention.
8 is another conceptual diagram of the present invention.
Figure 9 is a conceptual diagram of the signal information module of the present invention.

Hereinafter, the most preferred embodiments of the present invention will be described in detail in order to enable those skilled in the art to easily practice the present invention. The reference number in the example is not limited to the designated number, and any number can be accepted. The configuration presented in the examples can be expanded to objects that have the same purpose and effect. The sub-concepts of the configuration presented in the examples can be viewed as inherent even if they are not directly described.

(Example 1-1) The present invention relates to a crosswalk display device using electronic ink, which includes a microcapsule 111 that accommodates a plurality of particles that move under the control of electric current and an electrode substrate that controls the movement of the particles ( A crosswalk module 100 that includes an electronic ink layer 110 including 112) and forms a crosswalk on the bottom surface of the road; It includes a control unit 200 that receives signal information in connection with the traffic light 1 and controls the electronic ink layer 110 to output the selected color.

(Example 1-2) The present invention relates to a crosswalk display device using electronic ink. In Example 1-1, the crosswalk module 100 is formed of a plurality of units to form a crosswalk on a road. It is formed corresponding to the location of or is formed in a selected area.

(Example 1-3) The present invention relates to a crosswalk display device using electronic ink. In Example 1-1, the crosswalk module 100 is coupled to the ground and is placed on the ground at a selected height. It is formed as a landfill.

(Example 1-4) The present invention relates to a crosswalk display device using electronic ink. In Example 1-1, the crosswalk module 100 is located at either the top or bottom of the electronic ink layer 110. It further includes a protective layer 120 formed on one or more selected surfaces.

(Example 1-5) The present invention relates to a crosswalk display device using electronic ink. In Example 1-4, the protective layer 120 is made of acrylic material, silicone material, urethane material, and plastic resin material. It is formed by one or more of the selected ones.

Referring to Figures 1 and 2, the present invention relates to a crosswalk display device using electronic ink, which includes a crosswalk module 100 that forms a crosswalk on the bottom of the road, and a crosswalk module 100. It includes a control unit 200 that controls the operation of the crosswalk module 100 to output the selected color.

The crosswalk module 100 is formed to correspond to a crosswalk formed on the bottom surface of a road, and includes an electronic ink layer 110 that can perform printing using electronic ink. Through this, the crosswalk module 100 can display a crosswalk output in a color selected through the operation of the electronic ink layer 110.

The electronic ink layer 110 is formed by arranging a plurality of microcapsules 111 that accommodate a plurality of particles including anode particles and cathode particles, and controls the movement of particles contained within the microcapsules 111 through control of current. It includes an electrode substrate 112 for control. That is, the electronic ink layer 110 can output the selected color by controlling the movement of the selected particles using the electrode substrate 112.

The electrode substrate 112 is preferably formed on the top and bottom of the horizontally arranged microcapsules 111, and can control the movement of selected particles through control of current. Of course, various embodiments are possible, such as the electrode substrate 112 being formed only on the lower part of the microcapsule 111 for display efficiency.

As an example of the electronic ink layer 110, like the microcapsule 111 on the left of FIG. 2, white color can be output through reflection of light by moving only white particles, and the microcapsule 111 on the right of FIG. 2 ), black particles that do not output color can be moved through absorption of light to output black in contrast to white. In addition, like the microcapsule 111 located in the middle of Figure 2, by controlling and combining the ratio of white and black particles, not only can the gray color mixed with the two colors be output, but also by controlling the ratio. Even the contrast can be controlled.

In addition, of course, in addition to the white, black, and gray described above, it is possible to output a color selected that can reflect light other than white through various methods.

The electronic ink layer 110 using the above-described electronic ink uses electrical energy only when converting color through movement of particles, and the converted color can be maintained even without the supply of electrical energy. That is, the crosswalk module 100 of the present invention can efficiently use electrical energy even in the operation of outputting colors for displaying a crosswalk.

The control unit 200 is formed in connection with the traffic light 1 to receive signal information and control the operation of the electronic ink layer 110. For example, when the existing color of a crosswalk is output in white, and the signal changes to green with pedestrians walking, the electronic ink layer 110 can control its operation accordingly to convert to the selected color.

This allows drivers to easily understand the location of the crosswalk formed on the road surface and the signal information of the traffic light (1), thereby enabling safe driving. In particular, it enables drivers to turn right and approach the crosswalk. By easily identifying the location and signal information, collisions between right-turning vehicles and pedestrians can be prevented.

In addition, the crosswalk module 100 is formed of a plurality of units, and can be formed to correspond to the position of the crosswalk formed on the bottom surface of the road, or can be formed only in a selected area of the crosswalk. That is, by forming the crosswalk module 100 to correspond to the overall shape of the crosswalk, not only can the selected color be output, but also by forming the crosswalk module 100 only in areas where it is difficult for the driver to recognize the crosswalk, It can be used efficiently.

At this time, the crosswalk module 100 may be formed in a form coupled to the ground or buried in the ground to a selected height.

The form in which the crosswalk module 100 is coupled to the ground can be formed by bonding it to the ground using an adhesive material, etc., and in the case of being buried in the ground, it is buried to the height of the crosswalk module 100, so that the road Since interference with vehicles traveling on the crosswalk and pedestrians walking on the crosswalk can be prevented, the lifespan of the crosswalk module 100 can be increased.

(Example 2-1) The present invention relates to a crosswalk display device using electronic ink. In Example 1-1, the crosswalk module 100 is formed on the top of the electronic ink layer 110. It further includes a protective layer 120.

(Example 2-2) The present invention relates to a crosswalk display device using electronic ink. In Example 2-1, the protective layer 120 is formed of a transparent material.

(Example 2-3) The present invention relates to a crosswalk display device using electronic ink. In Example 2-2, the protective layer 120 is made of acrylic material, silicone material, urethane material, and plastic resin material. It is formed by one or more of the selected ones.

(Example 2-4) The present invention relates to a crosswalk display device using electronic ink. In Example 2-1, the protective layer 120 has a shape that surrounds the electronic ink layer 110 in the height direction. is formed by

(Example 2-5) The present invention relates to a crosswalk display device using electronic ink. In Example 2-1, the crosswalk module 100 further includes a steel protection portion made of steel material.

(Example 2-6) The present invention relates to a crosswalk display device using electronic ink. In Example 2-1, the protective layer 120 is formed of an insulating material.

Referring to FIG. 3, the crosswalk module 100 of the present invention further includes a protective layer 120 formed on the electronic ink layer 110.

The protective layer 120 is formed on the top of the electronic ink layer 110 to minimize the impact transmitted from the weight of driving vehicles and pedestrians walking on the crosswalk, thereby protecting the microcapsules 111 in the electronic ink layer 110. By minimizing damage and breakage, lifespan can be increased.

At this time, the protective layer 120 is made of a transparent material that facilitates reflection from particles for output of the selected color of the electronic ink layer 110 and can display color, and has certain rigidity and elasticity. It is preferably made of at least one material selected from acrylic material, silicone material, urethane material, and plastic resin material that can protect the electronic ink layer 110.

In particular, the protective layer 120 is preferably formed of an insulating material so as not to interfere with the movement of particles within the microcapsule 111.

In addition, rapid changes in temperature may cause contraction and expansion of the ground, and as a result, irregularities may be formed in the ground at the location where the crosswalk module 100 is installed. Accordingly, the protective layer 120 is preferably formed in a shape that surrounds the electronic ink layer 110 in the height direction, thereby protecting the electronic ink layer 110 from not only the load and impact supplied from the top, but also the positional imbalance supplied from the unevenness formed in the ground. It is desirable to minimize damage and breakage.

In addition, the crosswalk module 100 may further include a steel protection portion formed of a steel material in an area where color does not need to be output except for the protective layer 120 and an area in contact with the ground. The steel protection part is made of a steel material with higher rigidity than the material of the protective layer 120, so that not only can the coupling force with the ground be increased, but also the coupling between the crosswalk modules 100 can be easily performed.

(Example 3-1) The present invention relates to a crosswalk display device using electronic ink. In Example 1-1, the crosswalk module 100 has white and black colored microcapsules 111. It contains a color conversion layer 130 that accommodates particles and is formed of an RGB filter that changes the color output through white particles.

Referring to Figure 4, the crosswalk module 100 of the present invention includes a color conversion layer 130 formed of an RGB filter.

As described above, the microcapsules 111 of the electronic ink layer 110 generally output white color to the user through reflection of light transmitted from the light source, and output color through absorption of light transmitted from the light source. It uses black, which is not used, and can output gray through a combination of white and black, but this has the disadvantage of not being able to output various colors.

To this end, the crosswalk module 100 of the present invention includes a color conversion layer 130 formed of an RGB filter, and can output a color selected through its control.

That is, the microcapsule 111 controls white particles that reflect light in response to the color to be output from the RGB filter, thereby outputting the selected color through the RGB filter. Additionally, by controlling and combining the ratio of white and black particles, the brightness and darkness of the selected color can also be controlled.

As an example, the crosswalk module 100 of the present invention uses white particles to display a white crosswalk, and when the signal changes to green for pedestrians walking on the crosswalk, it outputs green using an RGB filter, Drivers approaching a crosswalk can easily recognize the location of the crosswalk.

(Example 4-1) The present invention relates to a crosswalk display device using electronic ink. In Example 1-1, the electronic ink layer 110 is capable of reflecting light on the microcapsule 111. The selected color is output by controlling particles having the selected color, or the selected color is output by controlling the combination of at least two particles having different colors that can reflect light.

(Example 4-2) The present invention relates to a crosswalk display device using electronic ink. In Example 4-1, the microcapsules 111 include particles having white, black, and green colors.

(Example 4-3) The present invention relates to a crosswalk display device using electronic ink. In Example 4-1, the microcapsules 111 are colored white, blue (cyan), red (magenta), and yellow. Contains particles having the three primary colors CMY, including (yellow).

Referring to FIG. 5, the electronic ink layer 110 of the present invention outputs a selected color through current control of particles having a selected color capable of reflecting light in the microcapsule 111, or has a color capable of reflecting light. The selected color can be output by controlling the combination of at least two or more particles having different colors.

That is, as described above, the electronic ink layer 110 generally uses white, which outputs color to the user through reflection of light transmitted from the light source, and black, which does not output color through absorption of light transmitted from the light source. The electronic ink layer 110 of the present invention outputs a selected color by controlling particles having a selected color capable of reflecting light transmitted from a light source, or outputs a selected color capable of reflecting light transmitted from a light source. By controlling and combining at least two or more particles, a color selected through a combination of two or more colors can be output.

For example, white particles and green particles are accommodated inside the microcapsule 111, and through electrode control thereof, white color is generally output to indicate a crosswalk, and the signal information of the traffic light 1 is used to indicate a pedestrian crossing. When the color is green, signal information can be output to drivers and pedestrians by controlling green-colored particles to output green. Of course, green can be output with a selected contrast through a combination of white and green.

In addition, the microcapsule 111 contains particles having the three primary colors of white and CMY, and can output various selected colors by controlling the movement of these particles.

For example, as shown in (a) of Figure 5, white color can be output by controlling only white colored particles, and as shown in Figure 5 (b), yellow colored particles can be controlled to output yellow color. Not only can it be printed, but it can also be printed in various yellow colors by combining it with white colored particles. As shown in Figure 5 (c), red with various brightnesses can be obtained through a combination of red (magenta) colored particles or red and white colored particles, and as shown in Figure 5 (d), blue ( Various blue colors can be output by combining blue particles with cyan color or white particles. As shown in (e) of Figure 5, black can be output through a combination of blue, red, and yellow, and as shown in (f), (g), and (h) of Figure 5, through a combination of red and blue. You can output blue, green through a combination of yellow and blue, and red through a combination of yellow and red.

(Example 5-1) The present invention relates to a crosswalk display device using electronic ink. In Example 1-1, the particles contained in the microcapsule 111 include a luminous layer formed of a luminous material. .

(Example 5-2) The present invention relates to a crosswalk display device using electronic ink. In Example 5-1, the luminous layer is formed by coating the outer surface of the particle.

(Example 5-3) The present invention relates to a crosswalk display device using electronic ink. In Example 5-1, the luminous material includes a radioactive material.

The particles contained in the microcapsule 111 of the present invention include a luminous layer formed of a luminous material.

It is difficult to identify the color output from the electronic ink layer 110 when the light source disappears. For this purpose, the particles contained in the microcapsule 111 are formed by coating the outer surface with a luminous layer formed of a luminous material, so that they absorb light during the day when a light source is present, and emit light at night when there is no light source, thereby making the particles Crosswalks can be displayed through output of selected colors even at night when they are difficult to identify.

At this time, the luminous material may contain a radioactive material. If it contains a radioactive material, the light emitted by stimulation of radiation can be maintained for a long period of time.

(Example 6-1) The present invention relates to a crosswalk display device using electronic ink. In Example 1-1, the crosswalk module 110 includes a light source unit 150 that functions as a light source. .

(Example 6-2) The present invention relates to a crosswalk display device using electronic ink. In Example 6-1, the light source unit 150 is formed of an LED module.

(Example 6-3) The present invention relates to a crosswalk display device using electronic ink. In Example 6-1, the control unit 200 includes an illumination sensor 210.

Referring to FIG. 6, the crosswalk module 110 includes a light source unit 150 that functions as a light source.

The light source unit 150 may be formed of an LED module that can function as a light source, and the light source unit 150 can display a crosswalk by using a backlight function to output color even at night when there is no light source transmitted from the sun. there is.

The light source unit 150 may be formed on the side or rear of the crosswalk module 100 to provide a light source, but is not limited thereto.

Additionally, referring to FIG. 7 , the control unit 200 includes an illumination sensor 210.

That is, the control unit 200 can measure the illuminance through the illuminance sensor 210 and control the operation of the light source unit 150 using the corresponding information. Through this, efficient management is possible by controlling the operation of the light source unit 150 according to the illuminance information without the manager operating separately.

(Example 7-1) The present invention relates to a crosswalk display device using electronic ink. In Example 1-1, the control unit 200 includes a vehicle identification unit 220 that identifies an approaching vehicle. , if the vehicle is in the selected situation, the electronic ink layer 110 is controlled to blink.

(Example 7-2) The present invention relates to a crosswalk display device using electronic ink. In Example 7-1, the vehicle identification unit 220 identifies a vehicle turning right and approaching the crosswalk.

(Example 7-3) The present invention relates to a crosswalk display device using electronic ink. In Example 7-1, the control unit 200 is configured to operate the electronic ink layer 110 to reflect and absorb light. Control the blinking operation through .

(Example 7-4) The present invention relates to a crosswalk display device using electronic ink. In Example 7-1, the control unit 200 determines that the electronic ink layer 110 displays two different signs through reflection. Control the blinking operation through the above color output.

Referring to FIG. 8, the control unit 200 of the present invention includes a vehicle identification unit 220 that identifies an approaching vehicle, and controls the electronic ink layer 110 to blink when the vehicle is in a selected situation.

In particular, the vehicle identification unit 220 identifies a vehicle turning right and approaching the crosswalk, and controls the electronic ink layer 110 to flash when a vehicle turns right and approaches the crosswalk, so that the driver is more aware of the location of the crosswalk. can do.

At this time, the control unit 200 can control the electronic ink layer 110 to perform a blinking operation according to the reflection and absorption of light, and blink through the output of two or more different colors through reflection of light. You can make it perform an action.

(Example 8-1) The present invention relates to a crosswalk display device using electronic ink, which includes the electronic ink layer 110 to form a floor surface on the sidewalk and displays a signal through control of the control unit 200. It further includes a signal information module 100-1 that outputs time information.

(Example 8-2) The present invention relates to a crosswalk display device using electronic ink. In Example 8-1, the signal information module (100-1) is coupled to the ground and has a selected height. It is formed by being buried in the ground.

The present invention further includes a signal information module 100-1 that is formed on the floor of the sidewalk and outputs time information of the signal.

The signal information module 100-1 includes the electronic ink layer 110 to form a floor surface on the sidewalk, and outputs time information of the signal through control of the control unit 200, allowing pedestrians to walk safely on the crosswalk. Make this possible.

As described above, the signal information module 100-1 outputs colors by controlling the particles in the microcapsules 111 of the electronic ink layer 110, and can form numbers by outputting conflicting colors.

As an example, the signal information module 100-1 can help pedestrians walk by outputting a count of the green signal time for pedestrians to cross the crosswalk.

In addition, the signal information module 100-1 further includes a protective layer 120 on one or more of the upper and lower parts of the electronic ink layer 110 to prevent damage and damage due to the load of pedestrians. desirable.

Additionally, the signal information module 100-1 can be formed in a form that is coupled to the ground or buried in the ground to a selected height.

The signal information module 100-1 can be formed by bonding to the ground using an adhesive material, in the same way as the crosswalk module 100 described above, and when buried in the ground, the signal By being buried to the height of the information module (100-1), interference with pedestrians can be prevented and the lifespan of the signal information module (100-1) can be increased.

100: Crosswalk module 100-1: Signal information module
110: electronic ink layer
111: microcapsule 112: electrode substrate
120: protective layer 130: color conversion layer
150: light source unit
200: control unit
210: Illuminance sensor 220: Vehicle identification unit

Claims (8)

Including an electronic ink layer 110 including a microcapsule 111 that accommodates a plurality of particles that move under the control of electric current and an electrode substrate 112 that controls the movement of the particles,
A crosswalk module 100 that forms a crosswalk on the bottom surface of the road;
It includes a control unit 200 that receives signal information in connection with the traffic light 1 and controls the electronic ink layer 110 to output the selected color,
The crosswalk module 100,
The microcapsule 111 accommodates white and black particles, and includes a color conversion layer 130 formed of an RGB filter that changes the color output through the white particles,
The control unit 200,
It includes a vehicle identification unit 220 that identifies an approaching vehicle, and controls the electronic ink layer 110 to blink when the vehicle is in a selected situation,
It forms a floor surface on the sidewalk including the electronic ink layer 110, and further includes a signal information module 100-1 that outputs time information of the signal through control of the control unit 200,
The crosswalk module 100 displays a white crosswalk using white particles, and when the signal changes to green when a pedestrian is walking on the crosswalk, it outputs green using an RGB filter,
The control unit 200 controls the electronic ink layer 110 to blink through two or more different color outputs through reflection,
The signal information module 100-1 outputs colors by controlling the particles in the microcapsules 111 of the electronic ink layer 110, and displays a crosswalk using electronic ink that forms numbers through output of conflicting colors. Device.
According to clause 1,
The crosswalk module 100 is
A crosswalk display device using electronic ink, further comprising a protective layer 120 formed on the electronic ink layer 110.
delete According to clause 1,
The electronic ink layer 110 is
The selected color is output by controlling particles having a selected color capable of reflecting light in the microcapsule 111, or the selected color is controlled to combine at least two particles having different colors capable of reflecting light. Crosswalk marking device using printed electronic ink.
According to clause 1,
A crosswalk display device using electronic ink wherein the particles contained in the microcapsule 111 include a luminous layer formed of a luminous material.
According to clause 1,
The crosswalk module 100,
A crosswalk display device using electronic ink including a light source unit 150 that functions as a light source.
delete delete