JP3234950U - Multicolor light emitting device for displaying 2D color visual code - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a multicolor light emitting device for displaying a two-dimensional color visual code used in a system which is read by an optical device mounted on a portable electronic information device, analyzes the information, and guides a target person by a guidance means. offer. SOLUTION: A multicolor light emitting device 1 is provided with a plurality of light emitting areas 2 for displaying a two-dimensional color visual code, and the light emitting area 2 is provided with an electric lamp that emits light in a plurality of colors. A solar power generation unit 3 is mounted as a power source of the device 1. The photovoltaic power generation unit 3 includes a solar cell 3a and a storage battery 3b. Further, the multicolor light emitting device 1 includes a control device 4 for controlling light emission and color development of the electric lamp in the light emitting area 2. Further, in the multicolor light emitting device 1, the number of light emitting areas 2 is 9 or 16, and the light emitting areas 2 are arranged in a grid pattern so as to be adjacent to each other. [Selection diagram] FIG. 4

Description

In the present invention, an optical device such as a camera mounted on a portable electronic information device such as a smartphone or a tablet terminal reads the information, and the portable electronic information device analyzes the information, and the portable electronic information device obtains the information. The present invention relates to a multicolor light emitting device for displaying a two-dimensional color visual code used in a system for guiding a target person such as a visually impaired person by various guidance means such as emitting a predetermined sound from a provided speaker device.

Conventionally, a camera device mounted on a portable electronic information device reads a two-dimensional color visual code, the information is analyzed by the portable electronic information device, and a predetermined voice is output from a speaker device provided on the portable electronic information device. A system for guiding the target person has been proposed, and a two-dimensional color visual code used for the system and various devices for displaying the code have been proposed.

Such a system can be used as a system for guiding a healthy person, but is particularly utilized as a system for guiding a visually impaired person. For example, a two-dimensional color visual code related to the information is installed at a point where there is a staircase 10 meters ahead. Then, a visually impaired person is asked to carry a smartphone with a predetermined application software installed, and when the visually impaired person approaches the point, the camera device mounted on the smartphone reads the two-dimensional color visual code. At the same time, the smartphone analyzes the information related to the two-dimensional color visual code, and makes it possible to emit a voice such as "There is a staircase 10 meters ahead" from the speaker device provided in the smartphone. This is preferable because even if only a visually impaired person acts, the risk of stumbling on the stairs and falling is reduced, and the possibility of safely acting is increased.

Here, the code is a code expressing an instruction for causing a portable electronic information device to perform a predetermined operation. Among such codes, those that are read by the optical device mounted on the portable electronic information device and whose information is analyzed by the portable electronic information device are particularly called visual codes. Further, since such a visual code can increase the amount of information that can be mounted on the visual code, it is a two-dimensional code having information in two directions of the vertical direction and the horizontal direction in a plan view, and is multicolored. It is often a color code that expresses the instruction.

The following are proposed as the above-mentioned two-dimensional color visual code. That is, it is a long-range, high-density visual marker having a black frame on a white background and a rectangular grid contained in the black frame, and the grid comprises rows and columns constituting a plurality of cells. Each cell corresponds to a different piece of data, the grid forms a color palette composed of elements with four different color tones that are distinguishable from each other, and the visual marker is further on the grid. In each of the four cells forming the corners and containing the color tones, each of the cells in each corner has at least one color tone and the darkest said element is considered the last value to form the color palette. , The central cell of the grid determines the size of the grid, the cell corresponding to the central row and column excluding the central cell defines a cyclic redundancy check code, and the remaining cells forming the grid are It is a visual marker characterized by being an element assigned to a message that can be transmitted by the visual marker (see, for example, Patent Document 1 below).

In addition, a multicolor light emitting device for displaying the above-mentioned two-dimensional color visual code has also been proposed. That is, a plurality of light emitting units that emit light in different colors, a chromaticity coordinate calculation unit that associates a digital value with a chromaticity coordinate value, and each light emitting unit based on the chromaticity coordinate value associated with the digital value. It is a visible light transmission device including a light emission amount control unit for controlling a light emission amount (see, for example, Patent Document 2 below). Further, a generation means for generating a two-dimensional color code in which a cell group including a plurality of data cells each having a signal color corresponding to any of a plurality of signal points defined on the chromaticity coordinates is arranged two-dimensionally. And a display means for displaying the two-dimensional color code, the cell group includes at least a plurality of reference cells whose contours are represented by a color different from the background, and the position of the reference cell in the cell group. A code transmission device known to a two-dimensional color code receiving device for the shape of the reference cell, the color of the reference cell, and the shape formed with the plurality of reference cells as vertices has also been proposed (for example, the following). 3).

Japanese Patent No. 6856965 Japanese Patent No. 5031427 Japanese Unexamined Patent Publication No. 2017-91140

The above two-dimensional color visual code can be printed on paper, drawn on a board member, or displayed variably using a multicolor light emitting device such as a combination of LED lamps of different colors. Is also possible. Certainly, printing a two-dimensional color visual code on paper or drawing it on a board member to display it is a convenient means for displaying it and installing it in a desired place.

However, the two-dimensional color visual code has a problem that the optical device mounted on the portable electronic information device cannot properly read the two-dimensional color visual code unless it is accompanied by a certain degree of brightness. That is, when displaying a two-dimensional color visual code by simply printing it on paper or drawing it on a board member and relying only on the brightness of the surroundings, it is necessary to display it in a dark place such as a basement or in a dark time such as at night. In the case of a band, the optical device cannot properly read the band and can not properly guide the subject. In particular, when the target person to be guided is a visually impaired person, in the above example, there is a high possibility that the person will trip over the stairs and fall in a dark place or time zone. In this regard, if a two-dimensional color visual code is displayed using a multicolor light emitting device, it can be displayed with sufficient brightness by itself without being affected by the ambient brightness. Even in a dark place or a time zone, the camera device can appropriately read the image and guide the subject appropriately (see, for example, Patent Document 2 above). In particular, when the target person to be guided is a visually impaired person, in the above example, if the two-dimensional color visual code that informs the stairs is displayed by the multicolor light emitting device, it can be visually recognized even in a dark place or a time zone. It is possible to reduce the risk that a person with a disability will trip over the stairs and fall.

Also, if you print a two-dimensional color visual code on paper or draw it on a board and fix it on the surface of a tangible object to display it, if you want to change the content of the command to the portable electronic information device, The two-dimensional color visual code related to the changed content of the command must be printed again on paper or drawn on a board member to be displayed again, which is complicated. That is, in the above example, when the two-dimensional color visual code related to the information is re-installed at a point where there is a staircase 5 meters ahead, the two-dimensional color visual code related to the changed content is printed again on paper. It is complicated because it has to be re-installed by drawing on a plate member or drawing on a plate member. In this regard, if the two-dimensional color visual code is variably displayed using the multicolor light emitting device, the changed contents may be adjusted by adjusting the light emission and color development of the electric lamp forming the multicolor light emitting device. It is suitable because the two-dimensional color visual code can be easily displayed (see, for example, Patent Document 3 above).

For the above reasons, it is preferable that the two-dimensional color visual code is variably displayed by using a multicolor light emitting device. However, in order to variably display a two-dimensional color visual code using a multicolor light emitting device, it is necessary to secure a power source for operating the device. If the 2D color visual code is installed indoors, it is relatively easy to secure a power source for the multicolor light emitting device because outlets are generally installed in many buildings, but especially this. If it is installed outdoors, securing its power source is an important issue. Therefore, the first problem to be solved by the present invention is a power source for a multicolor light emitting device for displaying a two-dimensional color visual code so that it can be operated regardless of the place where the device is installed. Is to secure.

In addition, the multicolor light emitting device for displaying the two-dimensional color visual code, especially when it is installed outdoors, may interfere with the traffic around it if it is a large device or the like, and the person to be guided may come into contact with it. There is a risk of In particular, if the target person to be guided is a visually impaired person, there is an increased risk of injury such as falling in contact with the visually impaired person. Therefore, the second problem to be solved by the present invention is to make the configuration of the multicolor light emitting device for displaying the two-dimensional color visual code compact.

The invention of the present application has been proposed to solve each of the above problems, and has the following configuration. In the following, in order to assist in understanding the configuration of the present invention, the numbers and codes displayed in the drawings attached to the present application are also described.

The multicolor light emitting device (1) for displaying the two-dimensional color visual code according to claim 1 is read by an optical device mounted on the portable electronic information device, and the information is read by the portable electronic information device. Is a multicolor light emitting device for displaying a two-dimensional color visual code used in a system for guiding a target person by a guidance means provided in the portable electronic information device. The multicolor light emitting device (1) includes a plurality of light emitting areas (2) for displaying the two-dimensional color visual code, and the light emitting area (2) includes a lamp that emits light in a plurality of colors. A solar power generation unit (3) is mounted as a power source for operating the multicolor light emitting device (1). The photovoltaic power generation unit (3) includes a solar cell (3a) and a storage battery (3b), and the solar cell (3a) is a device for absorbing energy related to sunlight and converting it into electrical energy. The storage battery (3b) is a battery for storing the electric energy converted by the solar cell (3a).

The multicolor light emitting device (1) according to claim 2 is a multicolor light emitting device for displaying the two-dimensional color visual code according to claim 1, and emits light and develops color of an electric lamp in a light emitting area (2). It is provided with a control device (4) for controlling.

The multicolor light emitting device (1) according to claim 3 is a multicolor light emitting device for displaying the two-dimensional color visual code according to claim 1 or 2, and the number of light emitting areas (2) is 9 or. It is set to 16, and the light emitting areas (2) are arranged in a grid pattern so as to be adjacent to each other.

Since the multicolor light emitting device (1) for displaying the two-dimensional color visual code according to the present invention has the above-mentioned configuration, the following effects can be obtained.

First, the multicolor light emitting device (1) for displaying the two-dimensional color visual code according to claim 1 is equipped with a photovoltaic power generation unit (3) as a power source for operating the multicolor light emitting device (1). Therefore, even when this is installed outdoors, the power source can be easily secured. Therefore, the present invention of the present invention of securing the power source of the multicolor light emitting device for displaying the two-dimensional color visual code according to the present invention can be solved so that the multicolor light emitting device can be operated regardless of the place where the two-dimensional color visual code is installed. The first problem can be solved.

Then, the multicolor light emitting device (1) for displaying the two-dimensional color visual code according to claim 1 is generated and stored by the photovoltaic power generation unit (3) in a bright time zone such as daytime. Even in a dark place or time zone, the lamp can emit light and develop color in the light emitting area (2). Therefore, since the multicolor light emitting device (1) can display the two-dimensional color visual code with sufficient brightness, the optical device mounted on the portable electronic information device appropriately reads the code. , It is possible to guide the target person appropriately.

Further, the multicolor light emitting device (1) for displaying the two-dimensional color visual code according to claim 2 includes a control device (4) for controlling light emission and color development of the electric lamp in the light emitting area (2). With its compact configuration, it is possible to variably display a two-dimensional color visual code that conveys information of various contents. Therefore, the multicolor light emitting device (1) for displaying the two-dimensional color visual code according to the present invention can solve the second problem to be solved by the present invention to make the configuration compact. ..

In this way, the multicolor light emitting device (1) for displaying the two-dimensional color visual code according to claim 2 emits light if the two-dimensional color visual code is variably displayed using the multicolor light emitting device. The two-dimensional color visual code related to the changed content can be easily displayed by adjusting the color development and the like.

Then, according to the knowledge obtained by the inventor of the present invention, in the multicolor light emitting device for displaying the two-dimensional color visual code, the number of light emitting areas (2) is set to 9 or 16, and the light emitting area (light emitting area) ( By arranging 2) in a grid pattern so as to be adjacent to each other, it is possible to sufficiently display the information used in the system in which the portable electronic information device guides the target person. Therefore, the multicolor light emitting device (1) for displaying the two-dimensional color visual code according to claim 3 is suitable for solving the second problem to be solved by the present invention.

It is a schematic block diagram which showed the multicolor light emitting device for displaying the two-dimensional color visual code which concerns on one Embodiment of this invention. FIG. 3 is a schematic configuration diagram showing a multicolor light emitting device for displaying a two-dimensional color visual code according to an embodiment different from FIG. 1. It is a schematic block diagram which showed the multicolor light emitting device for displaying the two-dimensional color visual code which concerns on embodiment different from FIGS. 1 and 2. It is an operation effect explanatory diagram which showed the state which used the multicolor light emitting device for displaying the two-dimensional color visual code which concerns on one Embodiment of this invention. It is an operation effect explanatory diagram which showed the state which used the multicolor light emitting device for displaying the two-dimensional color visual code which concerns on one Embodiment of this invention.

Hereinafter, the structure of the multicolor light emitting device for displaying the two-dimensional color visual code according to the embodiment of the present invention will be described with reference to the attached drawings.

The multicolor light emitting device (1) for displaying the two-dimensional color visual code according to the embodiment of the present invention is an optical device such as a camera mounted on a portable electronic information device such as a smartphone or a tablet terminal. Is read, the information is analyzed by the portable electronic information device, and a predetermined voice is emitted from the speaker device provided in the portable electronic information device. It relates to a multicolor light emitting device for displaying a two-dimensional color visual code used. In the present application, a two-dimensional color visual code is read by a camera device mounted on a smartphone, the information is analyzed by a predetermined application software installed on the smartphone, and a predetermined sound is emitted from a speaker device provided on the smartphone. , A multicolor light emitting device for displaying a two-dimensional color visual code used in a system for guiding a visually impaired person will be described as an example, but the present invention is particularly for displaying such a two-dimensional color visual code. It is not limited to the multicolor light emitting device.

As shown in FIGS. 1 to 5, the multicolor light emitting device (1) includes a plurality of light emitting areas (2), and each light emitting area (2) includes a lamp that emits light in a plurality of colors. .. For example, various known LED display devices and liquid crystal display devices can be used in the light emitting area (2). In particular, it is a display device that combines LED lamps of different colors from the LED display device, but due to its nature, it can be formed into a desired size and shape, so it depends on the location where the multicolor light emitting device (1) is installed. Any size and shape can be used, and it is suitable for use as a light emitting area (2). Further, when the camera device mounted on the smartphone reads the two-dimensional color visual code, if light is reflected in the light emitting area (2), the reading may be hindered, but the LED display device is light. Since the reflection of the light is hardly generated, the possibility of such a trouble can be reduced, and it is suitable for use as a light emitting area (2).

In the multicolor light emitting device (1), the number of light emitting areas (2) is 9 in FIG. 1, the number of light emitting areas is 16 in FIG. 2, and the light emitting areas (2) are arranged in a grid pattern so as to be adjacent to each other. doing. Here, in displaying the two-dimensional color visual code, the number and arrangement of the light emitting areas (2) are not particularly limited. However, according to the findings obtained by the inventor of the present invention, in a multicolor light emitting device for displaying a two-dimensional color visual code, the number of light emitting areas (2) is as shown in FIG. Alternatively, by setting 16 as shown in FIG. 2 and arranging the light emitting areas (2) in a grid pattern so as to be adjacent to each other, the information used in the system in which the portable electronic information device guides the target person is sufficiently displayed. can do. That is, as described above, by setting the number of light emitting areas (2) to 9 or 16 and arranging the light emitting areas (2) in a grid pattern so as to be adjacent to each other, the multicolor light emitting device (1) is compact in its configuration. It is suitable because it can be converted.

As shown in FIGS. 1 to 5, the multicolor light emitting device (1) includes a control device (4) for controlling light emission and color development of an electric lamp in a light emitting area. As the control device (4), various known microcomputers can be used. Since the multicolor light emitting device (1) can control the light emission and color development of the electric lamp in the light emitting area (2) by the control device (4), a two-dimensional color visual code that conveys various contents of information in a compact configuration. Can be displayed variably.

As shown in FIGS. 1 to 5, the multicolor light emitting device (1) is equipped with a photovoltaic power generation unit (3) as a power source for operating the device (1). The photovoltaic power generation unit (3) includes a solar cell (3a) and a storage battery (3b). The solar cell (3a) is a device for absorbing energy related to sunlight and converting it into electric energy, and various known solar cells such as panel-shaped members formed of semiconductors such as silicon. A panel (solar panel) can be used. Further, the storage battery (3b) is a battery for storing the electric energy converted by the solar cell, and various known storage batteries such as a lead storage battery and an alkaline storage battery can be used. By providing the storage battery (3b), the multicolor light emitting device (1) can supply electric energy to the multicolor light emitting device (1) even at night when the sun is not shining or in cloudy weather. As described above, since the multicolor light emitting device (1) is equipped with the above-mentioned photovoltaic power generation unit (3) as its power source, the power source can be easily used even when the multicolor light emitting device (1) is installed outdoors. Therefore, the multicolor light emitting device (1) can be operated regardless of the place where the multicolor light emitting device (1) is installed.

The multicolor light emitting device (1) has a wall-mounted structure that is used by being attached to the wall of a building in FIGS. 1 and 2, but the pedestal (5) having wheels attached to the lower portion as shown in FIG. It is also possible to have an in-vehicle structure such as mounting it on a support via a support, and the installation means thereof is not particularly limited. If the multicolor light emitting device (1) is made into such an in-vehicle type, it becomes easy to move when the place where the multicolor light emitting device (1) is installed is changed, which is preferable.

The above is a description of the structure of the multicolor light emitting device for displaying the two-dimensional color visual code according to the embodiment of the present invention. Hereinafter, a mode of use of the multicolor light emitting device for displaying the two-dimensional color visual code according to the embodiment of the present invention will be described with reference to the accompanying drawings.

As shown in FIG. 4, for example, when notifying a visually impaired subject to a point where a staircase (A) is located 10 meters ahead, a multicolor light emitting device (1) is installed at the point. .. As described above, if the multicolor light emitting device (1) is a wall-mounted type, it is attached to the wall (B) of the building and installed. The multicolor light emitting device (1) receives electric energy from the photovoltaic power generation unit (3), and under the control of the control device (4), a two-dimensional color visual indicating that there is a staircase 10 meters ahead. The code is displayed in the light emitting area (2).

Then, when a visually impaired person who has a smartphone with a predetermined application software installed near the place where the multicolor light emitting device (1) is installed, the camera device mounted on the smartphone approaches the two-dimensional color vision. While reading the code, the information related to the two-dimensional color visual code is analyzed, and the voice "There is a staircase 10 meters ahead" is emitted from the speaker device provided in the smartphone. This is preferable because even if only a visually impaired person acts, the risk of tripping over the stairs (A) is reduced and the possibility of safely acting is increased.

If a two-dimensional color visual code is displayed in the light emitting area (2), it can be displayed with sufficient brightness by itself without being influenced by the surrounding brightness, so that it can be displayed in a dark place or time. Even if it is in the band, the camera device can appropriately read it and can appropriately guide the subject, which is preferable. In particular, when the target person to be guided is a visually impaired person, in the above example, if the two-dimensional color visual code notifying the stairs (A) is displayed on the multicolor light emitting device (1), a dark place or time can be displayed. Even if it is in the band, it is possible to reduce the risk that a visually impaired person may trip over the stairs (A) and fall.

Further, although the multicolor light emitting device (1) is compactly configured as described above, even when the multicolor light emitting device (1) is installed outdoors, there is a risk of obstructing the traffic around it or the person to be guided comes into contact with it. The risk is reduced, and in particular, even if the person to be guided is a visually impaired person, the risk of being injured by contacting the person and falling over is reduced.

Then, at the point where the staircase (A) is 5 meters ahead, the multicolor light emitting device (1) is re-installed to display the two-dimensional color visual code recording the information in order to inform the subject to that effect. In this case, as shown in FIG. 5, a multicolor light emitting device (1) is installed at the relevant point. Then, by adjusting the light emission and color development via the control device (4), the code is changed to a two-dimensional color visual code related to the information that there is a staircase 5 meters ahead, and this is changed to the light emission area (2). indicate.

1 Multicolor light emitting device 2 Light emitting area 3 Solar power generation unit 3a Solar cell 3b Livestock battery 4 Control device 5 Pedestal A Stairs B Building wall

Claims (3)

It is read by the optical device mounted on the portable electronic information device, the information is analyzed by the portable electronic information device, and used in a system for guiding the target person by the guidance means provided in the portable electronic information device. A multicolor light emitting device for displaying a two-dimensional color visual code, the multicolor light emitting device includes a plurality of light emitting areas for displaying the two-dimensional color visual code, and the light emitting area is provided. It is equipped with electric lights that emit light in multiple colors, and is equipped with a solar power generation unit as a power source for operating the multicolor light emitting device, and the solar power generation unit is equipped with a solar cell and a storage battery. The solar cell is a device for absorbing energy related to sunlight and converting it into electric energy, and the storage battery is a battery for storing the electric energy converted by the solar cell. A multi-color light emitting device characterized by. A multicolor light emitting device for displaying the two-dimensional color visual code according to claim 1, further comprising a control device for controlling light emission and color development of an electric lamp in the light emitting area. Device. A multicolor light emitting device for displaying the two-dimensional color visual code according to claim 1 or 2, wherein the number of light emitting areas is 9 or 16, and the light emitting areas are arranged in a grid pattern so as to be adjacent to each other. A multicolor light emitting device characterized by being arranged.

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