JP2021030032A - Rendering glass for beverage, freezing container for beverage, rendering system for beverage and storage medium - Google Patents

Abstract

To provide a safe rendering glass for beverages in which the control of the reflectivity of an image is easy, a rendering system for beverages using the rendering glass for beverages and a storage medium for use in these, and a freezing container for beverages.SOLUTION: A rendering glass 1 for beverages of the present invention includes: a glass body having an upper opening, and a bottomed cylindrical body; a fixing mechanism for fixing an image display device to the side of the glass body; a transparent part for visually recognizing an image displayed in an image display unit of the image display device from the outside of the glass body; and a beam splitter arranged inside of the glass body. The beam splitter comprises the beverages in the inside of the glass body. The beverages includes a flat slope tilting to the image display unit, and the image displayed in the image display unit is split into 2-images in the beam splitter to become a reflected image and a transmitted image, and then reaches the outside of the glass body.SELECTED DRAWING: Figure 1

Description

The present invention relates to a beverage effect glass and a beverage effect system that split or reflect an image of an image display device on the side surface of the glass using a beam splitter made of drinking water, and a storage medium and a beverage freeze container used for these.

Glasses with various functions other than the function of putting beverages have been developed.
For example, Patent Documents 1 to 3 disclose production glasses for beverages invented by the inventor of the present application. This production glass for beverages extends from the bottom of the glass body to the inside to store the portable communication device, and extends from the side of the glass body to the inside to receive radio waves from the portable communication device. It is equipped with a waveguide for passing through. This effect glass for beverages can perform wireless communication by transmitting the radio waves of the portable communication device to the outside through a waveguide even when the glass body is filled with beverages.
Patent Documents 4 to 5 disclose production glasses for beverages invented by the inventor of the present application. This effect glass for beverages is provided with an image display device fixed by a storage portion on the side surface of the glass and a reflector or a half mirror arranged inside the glass body, and the image of the image display device is simulated as a glass. It is a glass that can be projected inside.

Patent No. 6337256 Patent No. 6406742 Patent No. 6432960 Patent No. 6488049 Patent No. 6528162

In Patent Documents 4 to 5, the metal or glass reflector or beam splitter arranged in the glass is damaged when ice is put into the glass or when the beverage in the glass is stirred with a spoon or the like. There is a risk, and there is a safety problem that the user accidentally swallows the damaged reflector or beam splitter debris. Further, there is a problem that the weight of the glass body increases by the amount of the reflector or the beam splitter. Further, there is a problem that it is difficult for the user to control or fine-tune the reflectance and transmittance of the image by himself / herself.

In view of the above problems, it is an object of the present invention to provide a safe production glass for beverages in which the reflectance of an image can be easily controlled. Another object of the present invention is to provide a beverage production system using these beverage production glasses, a storage medium used for these, and a beverage freezing container.

The beverage effect glass of the present invention includes a glass body which is a bottomed tubular body having an upper opening, a fixing mechanism for fixing an image display device on the side surface of the glass body, and an image display of the image display device. A transparent portion for visually recognizing the image displayed on the unit from the outside of the glass body and a beam splitter arranged inside the glass body are provided, and the beam splitter is used from a beverage inside the glass body. The beverage is provided with a flat inclined surface that is inclined with respect to the image display unit at a position where the image is incident, and the image displayed on the image display unit is split into two by the beam splitter. It becomes a reflection image and a transmission image, and the reflection image and the transmission image pass through the transparent portion and reach the outside of the glass body.
Further, the ratio of the brightness of the reflected image and the brightness of the transmitted image can be adjusted by adjusting the color and / or light transmittance of the beverage.
Further, the beam splitter is characterized by being made of a beverage frozen in a shape having the inclined surface.
Further, it is characterized in that a flat portion inclined with respect to the image display portion is provided on the side surface of the glass body and at a position where the image is incident.
Further, it is characterized in that the inclination angle of the inclined surface with respect to the image display portion is variable.
Further, it is characterized in that a curved portion that is convexly curved to the outside of the glass body is provided at a position where the transmitted image of the transparent portion passes.
Further, it is characterized by providing a lid for closing the upper opening.
The recording medium of the present invention is a storage medium in which a computer program used in the beverage production glass is stored, and the computer program is characterized in that the image is flipped horizontally and / or flipped vertically.
The beverage freezing container of the present invention is a beverage freezing container used in the beverage production glass, and is a beverage freezing container characterized in that the beverage is frozen in a shape having the inclined surface.
The beverage production system of the present invention is a beverage production system used in the beverage production glass, and is characterized in that a specific color of the reflection image is emphasized by using the colored beverage as the beam splitter. ..

In the effect glass for beverages of the present invention, the image display device is fixed to the side surface of the glass body, and the image of the image display unit is converted into incident waves and reflected waves by a spectroscope (more strictly, a beam splitter) arranged inside the glass body. Split. The two images split by the beam splitter pass through two different transparent parts of the glass body at the same time and reach the outside of the glass body, and are visually recognized by two or more users. The video display device may be a part of a portable communication device.
In the production glass for beverages of the present invention, a reflector, a spectroscope, a beam splitter, etc., which have a risk of cracking, are arranged inside the glass body as in the conventional case (see Patent No. 6488049 and Patent No. 6528162 for details). Since it is not necessary, there is no risk of damage to the glass body when stirring the beverage, and since a metal reflector or a glass beam splitter is not required, the weight of the glass body can be reduced accordingly.
In addition, the beam splitter in the beverage production glass of the present invention can be drunk for beverages.
Further, since the beverage production glass of the present invention uses the beverage itself as a reflector or a beam splitter, the reflection image and the transmission image arbitrarily dispersed inside the glass by adjusting the color and light transmission of the beverage. The ratio of brightness is adjustable (ie, the beverage acts as both a beam splitter and a reflector depending on the color of the beverage and the intensity of light transmission).
If you do not want to show the transmitted image of the image of the portable communication device to a third party around the glass body, cancel the transmitted image by using a beverage with low light transmission such as black coffee or black beer as a beam splitter. Only the reflected image can be projected to the user.
Since the beam splitter in the glass body consists of a frozen beverage, the user can eat or melt the beam splitter and drink it. In addition, a beam splitter having various reflection angles, reflectances, or transmittances can be made from a favorite soft drink in a household refrigerator.
Since the reflected image and the transmitted image are flipped horizontally or vertically and horizontally, the inverted state of the image of the image can be instantly switched between the case where the user mainly views the reflected image and the case where the user mainly views the transmitted image by an image inversion processing program or the like. If it can be done, the convenience of the user can be improved. By providing a curved portion that is convexly curved on the outside of the glass body at a position where the transmitted image of the transparent portion on the side surface of the glass passes, a part of the beverage L can function as a convex lens and the transmitted image can be enlarged and displayed. It is possible to change the magnification of the transmitted image according to the type of the beverage L.
The beverage production system of the present invention can reflect a reflected image by emphasizing or invisible characters or objects of a specific color by switching beverages of various colors.

Perspective view which shows production glass for beverage of 1st Embodiment Perspective views (a), (b), (c) of a shape example of a production glass for beverages Perspective view which shows production glass for beverage of 2nd Embodiment Perspective view of an example of a beverage freezing container for a beam splitter Perspective view which shows production glass for beverage of 3rd Embodiment Flow chart of image inversion processing program A perspective view showing the configuration of the beverage production system of the first embodiment.

[First Embodiment of Beverage Production Glass]
Hereinafter, the first embodiment of the production glass for beverages of the present invention will be shown with reference to the drawings.
As shown in FIG. 1, the beverage effect glass 1 is roughly composed of a glass body 10, a fixing mechanism 16, a beverage L, a beam splitter 30, an inclined surface 17, and a transparent portion 12.
The glass body 10 is a bottomed tubular body having an upper opening 11, and a liquid L such as a beverage can be filled therein. Examples of the material of the glass body 10 include glass, resin, pottery, porcelain, and the like, as in the case of general glass.
The fixing mechanism 16 is a member for fixing the image display device 80 to the side surface of the glass body 10. In the present embodiment, the fixing mechanism 16 includes an insertion port 21 for inserting the image display device 80 and a storage unit 20 for storing the image display device 80.
The video display device 80 may be used as a video display device built into a portable communication device such as a smartphone.
The beam splitter 30 is composed of the beverage L and is arranged inside the glass body 10, and the image 81 (referred to as the alphabet A in the present embodiment) displayed on the image display unit 85 of the image display device 80 is referred to as the reflection image 83. It is used to split into a transmission image 84. The dispersed transmitted image and the reflected image pass through the transparent portion and reach the outside of the glass body.
The beam splitter (English; Beam splitter) 30 is an optical device that splits a luminous flux (that is, light incident on the beam splitter 30) into two (or three or more). A part of the light incident on the beam splitter 30 is reflected and a part is transmitted. Generally, it is used for optical pickups, reflective liquid crystal projectors, optical communication devices, photon random number generators, and the like. In the present invention, the light of the image 81 displayed on the image display unit 85 of the image display device 80 is split into the reflection image 83 and the transmission image 84 by using the spectroscopic function of the beam splitter 30. Normally, the beam splitter is made of transparent glass or resin (acrylic or the like), but in the beverage effect glass 1 of the present invention, the beverage L itself inside the glass body 10 is used as a beam splitter.
Beverage L is located inside the glass body 10 and is used as a beam splitter 30. By doing this, unlike a normal beam splitter, by adjusting the color and light transmission of the beverage L (that is, the user only adjusts the color and color density of the beverage), the reflection image 83 is split inside the glass. The brightness ratio of the transmission image 84 can be adjusted. For example, if a beverage having almost no light transmission such as coffee is used as the beverage L, only the transmission image 84 can be made invisible. Further, since it is not necessary to separately arrange a normal beam splitter using glass, resin or the like inside the glass body 10, it is possible to reduce the weight of the glass and improve the safety accordingly.
The inclined surface 17 is a flat surface that is located in the area where the image 81 of the beverage L is incident and is inclined with respect to the image display unit 85 of the image display device 80, and is used as a surface on which the reflected image 83 is reflected. Since the inclined surface 17 is inclined with respect to the image display unit 85, the angle of incidence I of the image 81 on the beverage L does not become 0 degrees, so that the user U can visually recognize the reflection image 83 from the periphery of the glass body 10. If the inclined surface 17 does not exist (that is, when the incident angle I is 0 degrees), the incident angle and the reflection angle are equal, so that the image 81 projected from the image display unit 85 is hit back toward the image display unit 85 by the beverage L. When viewed from the user U, the reflected image 83 is obstructed by the image display device 80 and becomes difficult to see. Therefore, the inclined surface 17 is indispensable for visually recognizing the reflected image 83. In the example of FIG. 1, as a method for providing the beverage L with the inclined surface 17, the image display unit 85 is placed on the water surface LB by the hook 22 in which the storage unit 20 for storing the image display device 80 is attached to the side surface of the glass and the angle adjusting mechanism 23. The water surface LB is used as the inclined surface 17 by fixing the water surface LB in an inclined state. Since the inclined surface 17 is flat, the reflected image 83 is not diffusely reflected and is not distorted. If the inclined surface 17 includes curved portions and corner portions, the reflected image 83 is reflected in various directions and is distorted, so that the user U cannot visually recognize the normal reflected image 83. Therefore, it is essential that the inclined surface 17 is flat.
The transparent portion 12 is provided on the side surface of the glass body 10 so that a plurality of users U (two people in the present embodiment) can visually recognize the images 81 (reflection image 83 and transmission image 84) from the outside. Each user U can visually recognize the image 81 (reflection image 83 and transmission image 84) of the image display device 80 stored in the storage unit 20 from the side surface of the glass body 10 via the beam splitter 30 and the transparent unit 12. It is not always necessary to make the entire glass transparent as long as the user U can visually recognize the reflection image 83 and the transmission image 84. The glass body 10 may be shaped like a mug having a handle 13 to make it easier to hold.

Since the beverage L itself is the beam splitter 30, when the beverage L is amber such as whiskey, the image visually recognized by the user U from the transparent portion 12 is colored with the color of the beverage L, so that the beverage L to be filled in the glass body 10 is filled. It is possible to obtain an effect that the image is colored according to the color of. The arrow in FIG. 1 indicates the optical path in the beam splitter 30. The image 81 of the image display device 80 incident on the beverage L, which is the beam splitter 30, from the inclined surface 17 is split into two through the beam splitter 30 to become a reflection image 83 and a transmission image 84. Since the incident angle and the reflection angle are equal according to the basic law of optics, the reflection image 83 is formed by adjusting the angle formed by the inclined surface 17 and the image display unit 85 by providing the storage unit 20 with an angle adjustment mechanism 23 (hinge, hinge, etc.). And the angle formed by the transmission image 84 can be adjusted. Reference numeral 82 in FIG. 1 is an image of the image 81 reflected on the beam splitter 30 (more strictly, the inclined surface 17) when viewed from the user U side viewing the reflection image 83.
Since the reflected image 83 is reflected by the beam splitter 30, it is horizontally or vertically and horizontally inverted (or mirror-written) with respect to the image 81 and the transmitted image 84, but this is an image on the image display device 80 side. This can be solved by processing and flipping the image 81 horizontally or vertically or horizontally in advance. However, since the transmission image 84 is also inverted when the transmission processing is performed, it is not necessary to perform the inversion processing when the transmitted image 84 is mainly to be visually recognized. As for the upside-down processing, the image display device 80 is fixed in the storage unit 20 in a state of being upside down in advance as shown in FIG. 1, so that the reflected image 83 is upside down without the upside-down processing on the image processing software side. You can. Therefore, as the fixing mechanism 16 for fixing the image display device 80 to the glass body 10, a storage unit 20 or a belt mechanism that can fix the image display device 80 even when the image display device 80 is turned upside down as shown in FIG. 1 is desirable. In the case where the user U looks into the reflection image 83 inside the glass body 10 from the image display device 80 side instead of the glass body 10 side, the reflection image 83 and the transmission image 84 are not turned upside down, so no upside down processing is required. Is.

FIG. 2 shows an example of the shape of the beverage production glass of the present invention.
The shape of the beverage effect glass 1 is not particularly limited as long as the beverage L inside the glass body 10 has an inclined surface 17.
For example, in FIG. 2A, the glass body 10 is tilted instead of tilting the storage portion 20 as shown in FIG. 1 in order to include the tilted surface 17. If the angle adjusting mechanism 23 is provided on the bottom of the glass body 10, the inclination angle 19 of the inclined surface 17 with respect to the image display portion 85 can be freely adjusted, so that the incident angle of the image 81, that is, the reflection angle of the image 83 can be changed. For example, the inclination angle 19 may be adjusted by the angle adjusting mechanism 23 so that the user U can visually recognize the reflection image 83 not only through the transparent portion 12 but also through the upper opening 11. As the angle adjusting mechanism 23, a known mechanism such as a hinge may be used.
FIG. 2B has a shape including a flat portion 18 in which the side surface of the glass body 10 is inclined with respect to the image display portion 85 in order to provide the inclined surface 17 in the beverage L. By doing so, the inclined surface 17 can be provided on the beverage L without fixing the image display device 80 so as to protrude from the side surface of the glass body 10 as shown in FIG. 1, so that the image display device 80 comes into contact with another object. This prevents damage and further saves space in the beverage production glass 1. FIG. 2C is simply a bottle-shaped shape of the beverage effect glass 1 of FIG. 2B, which is provided with a lid 10a for closing the upper opening 11.

[Second Embodiment of Beverage Production Glass]
Hereinafter, the second embodiment of the beverage production glass of the present invention will be shown with reference to the drawings, but the same reference numerals will be given to the parts having the same configuration as the beverage production glass 1 of the first embodiment. The explanation will be omitted.
As shown in FIG. 3, a beverage L2 which is a beverage L frozen in a shape provided with an inclined surface 17 may be used as the beam splitter 30. Since the beverage L2 is frozen, it is solid, and since it is frozen in a state in which the inclined surface 17 is provided in advance, the image display device 80 is as shown in FIG. 1 of the beverage effect glass 1 of the first embodiment. It is not necessary to fix the glass body 10 in an inclined state, or it is not necessary to provide an inclined flat portion 18 on the side surface of the glass body 10 as shown in FIGS. 2 (b) and 2 (c). By simply putting the frozen beverage L2 into the beverage L3 (liquid) in the cylindrical glass body 10, the interface LB2 between the beverage L2 and the beverage L3, which is the inclined surface 17, is automatically generated. If the beverages of the beverage L2 and the beverage L3 are of the same type, the reflection of the image 81 on the boundary surface LB2 is almost eliminated, so that the reflection image 83 is almost invisible. Therefore, if it is desired to make the reflection image 83 clearly visible, the color density of the beverage L2 may be darker than that of the beverage L3. For example, if a dark-colored beverage such as black coffee or dark beer with weak light transmission is used for the beverage L2 and a colorless distilled liquor or the like is used for the beverage L3, the reflection image 83 can be clearly seen.
Since the beverage L2 is gradually melted by the beverage L3, it is possible to produce an effect that the reflection image 83 disappears with the passage of time, and since the beverage L2 is ice, the beverage L3 can be cooled.
When the user U looks into the reflected image 83 inside the glass body 10 from the image display device 80 side as shown in FIG. 3, the reflected image 83 and the transmitted image 84 are not turned upside down.
If a beverage freezing container 90 (that is, a mold) for creating the beam splitter 30 is used as shown in FIG. 4, the user molds the beam splitter 30 using his / her favorite soft drink or alcoholic drinking water in a household refrigerator. it can. Further, when the beverage L2 is frozen, the inclined surface 17 at a free angle can be set. It is essential that the beverage freezing container 90 is a container having an inclined surface 17 and a shape for freezing the beverage L. Instead of freezing the beverage freezing container 90, the beverage L may be hardened with candy, sugar, gelatin or the like.

[Third Embodiment of the production glass for beverages]
Hereinafter, the third embodiment of the beverage production glass of the present invention will be shown with reference to the drawings, but the same reference numerals will be given to the parts having the same configuration as the beverage production glass of each of the above embodiments. The description will be omitted.
As shown in FIG. 5, the transparent portion 12 may include a curved portion 15 that is convexly curved to the outside of the glass body 10 at a position where the transmission image 84 is transmitted. When the user U visually recognizes the transmission image 84 through the curved portion 15, the transmission image 84 appears to be enlarged as compared with the image 81. This is because the refractive index of water light is about 1.333, which is larger than the refractive index of air, so that the beverage L, which has the same shape as a plano-convex lens or a biconvex lens due to the convex curved portion, is a lens (more strictly speaking). Is a convex lens). However, since the refractive index of light from glass is about 1.43 to 1.47, the magnification of a lens using beverage L as a refraction medium is smaller than that of a normal convex lens using glass. As the shape of the curved portion 15, a known convex lens shape such as a hemispherical shape can be considered.
Since the refractive index of ethyl alcohol or sugar having a concentration of 20 [%] is about 1.36, when the beverage L is a liquid to which alcohol or sugar is added, the enlargement ratio is larger than that of ordinary water or tap water. Become. By changing the alcohol concentration and sweetness of the beverage L in this way, it is possible to adjust the enlargement ratio of the transmission image 84.

FIG. 6 shows an example of a flowchart of a computer program that reverses the image used in the beverage effect glass 1 of the first to third embodiments.
First, the data of the video 81 is acquired in the first step 1, and the video 81 is flipped horizontally or vertically and horizontally in the next step 2 as needed, and the flip processing is performed in the final step 3. The output video is output to the video display device 80, and the process ends. It should be noted that the image display device 80 for performing the image inversion process for improving convenience may be provided with a button for image inversion, and the timing at which the button is pressed may be used. Further, in order to further improve convenience, an acceleration sensor is provided in the image display device 80 to detect the tilt of the glass body, that is, the user U tilts the glass during drinking to tilt the upper opening and the transparent portion 12 in the vicinity thereof. The inversion process may be performed at the timing when it is presumed that the reflected image of the above is visually recognized. The computer that operates the image inversion processing program may be a dedicated IC, a computer in a portable communication device, or a computer in a remote server.
The algorithm of the image inversion processing may be a known one that exchanges the coordinates of the pixels in the X direction and the Y direction of the image.

[First Embodiment of Beverage Production System]
Hereinafter, the first embodiment of the beverage production system of the present invention will be described. The parts having the same configuration as the beverage effect glass of each of the above embodiments are designated by the same reference numerals, and the description thereof will be omitted.
As shown in FIG. 7, in the beverage production system 1 of the present embodiment, the beverage production glass 1 of each of the above embodiments and the colored beverage are used as the beverage L. Colored beverages are all beverages except colorless and transparent beverages such as water and pure water. Specific examples include black beverages such as coffee and black beer, and red beverages such as tomato juice and red wine. Refers to golden or amber beverages such as whiskey and beer.
As described in the first embodiment of the above-mentioned beverage production glass, since the beverage L is used as the beam splitter 30 in the beverage production glass of the present invention, the reflection image 83 can be colored by various beverages L. If this is used, it is possible to produce an effect in which a specific color of the reflected image 83 is emphasized. For example, when the image 81 is a white character image as shown in FIG. 7, if a black liquid (for example, coffee or the like) is used as the beverage L, the white area of the image 81 is emphasized by the black color of the beverage L in the reflection image 83. It will look clearer. Further, if a white beverage (milk or the like) is used as the beverage L, the white area of the image 81, that is, the letter A can be made almost invisible. As described above, the beverage production system 1 of the present embodiment emphasizes or conversely cancels the characters and objects of a specific color in the image 81 by switching the beverage L colored in various colors, and reflects the image. It can reflect 83. Therefore, even with the same image 81, it is possible to produce an effect in which the appearance and the contrast of the image change depending on the beverage L.

In the present invention, since the beam splitter for reflecting the image on the side surface of the glass body is formed by the beverage inside the glass body, it is safe and lightweight, and the reflectance and transmittance of the image can be easily controlled. From the above, the present invention has industrial applicability.

L liquid (beverage)
L2 beverage (solid)
L3 beverage (liquid)
LB Water surface LB2 Boundary surface I Incident angle U User 1 Beverage production glass 10 Glass body 11 Top opening 12 Transparent part 13 Handle (transparent)
10a Lid 15 Curved part 16 Fixing mechanism 17 Tilt surface 18 Flat part 19 Tilt angle 20 Storage part 21 Insertion port 22 Hook 23 Angle adjustment mechanism 30 Beam splitter 80 Video display device 81 Video 82 Image 83 Reflection image 84 Transmission image 85 Video display unit 90 Frozen container for beverages

Claims (10)

The glass body, which is a bottomed tubular body with an upper opening,
A fixing mechanism for fixing the image display device to the side surface of the glass body,
A transparent part for visually recognizing the image displayed on the image display unit of the image display device from the outside of the glass body, and
It is equipped with a beam splitter arranged inside the glass body.
The beam splitter consists of a beverage inside the glass body.
The beverage is provided with a flat inclined surface that is inclined with respect to the image display portion at a position where the image is incident.
The image displayed on the image display unit is split into two by the beam splitter to form a reflected image and a transmitted image, and the reflected image and the transmitted image pass through the transparent portion to the outside of the glass body. A directing glass for beverages, which is characterized by reaching. The production glass for beverages according to claim 1, wherein the ratio of the brightness of the reflected image and the brightness of the transmitted image can be adjusted by adjusting the color and / or light transmittance of the beverage. The beverage production glass according to any one of claims 1 to 2, wherein the beam splitter comprises a beverage frozen in a shape having the inclined surface. The beverage effect according to any one of claims 1 to 3, wherein a flat portion inclined with respect to the image display portion is provided on the side surface of the glass body and at a position where the image is incident. glass. The beverage production glass according to any one of claims 1 to 4, wherein the inclination angle of the inclined surface with respect to the image display portion is variable. The beverage production glass according to any one of claims 1 to 5, wherein a curved portion that is convexly curved to the outside of the glass body is provided at a position where the transmission image of the transparent portion passes. The beverage production glass according to any one of claims 1 to 6, further comprising a lid for closing the upper opening. A storage medium in which a computer program used in the beverage production glass according to any one of claims 1 to 7 is stored.
A storage medium in which the computer program performs left-right inversion processing and / or up-down inversion processing of the video. A beverage freezing container used in the beverage production glass according to claim 3.
A freezing container for beverages, which freezes a beverage in a shape having an inclined surface. It is a beverage production system used in the beverage production glass according to any one of claims 1 to 7.
A beverage production system characterized in that a specific color of the reflected image is emphasized by using the colored beverage as the beam splitter.