WO2021193394A1 - Image display device fixing implement and storage medium, remote toast counter system - Google Patents

Abstract

This invention addresses the problem of providing an image display device fixing implement having a built-in mechanism that cancels horizontal-direction distortion of an image viewed through a beverage in a glass such that the image is enlarged only in the horizontal direction without being distorted. This invention also addresses the problem of providing a remote toast counter system that uses the image display device fixing implement and a storage medium that is to be used with the image display device fixing implement.　An image display device fixing implement according to this invention fixes an image display device to a side surface or a vicinity of a side surface of a beverage container that is a bottomed cylindrical body having an upper opening, the image display device fixing implement comprising: a fixing frame that fixes the image display device; a fixing mechanism that fixes the fixing frame to the beverage container; and an image aspect ratio control unit that changes an aspect ratio of an image displayed by the image display device.

Description

Video display device Fixing device and storage medium, remote toast counter system

The present invention relates to an image display device fixing device for displaying an image in which distortion due to the lens effect of water or a beverage inside a beverage container is canceled.

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 beverage production glass 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 Document 4 discloses a production glass for beverages invented by the inventor of the present application. This effect glass for beverages is equipped with an image display device fixed to the side of the glass and a reflector arranged inside the glass body, and the effect of projecting the image of the image display device on the inside of the glass in a pseudo manner is achieved. It is a possible glass.

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

However, since ordinary cups and beer mugs including the above Patent Documents 1 to 4 have a cylindrical shape or a shape close to a cylindrical shape and the side surfaces are always curved in the horizontal direction, the user can pass through the beverage inside the beverage container. Whenever you look at the image projected from the inside or side of the beverage container, it is always distorted into a horizontally enlarged image.

In view of the above problems, the present invention is an image display device fixing device incorporating a mechanism for canceling the horizontal distortion of the image so that the image viewed through the beverage in the glass does not expand and distort only in the horizontal direction or the horizontal direction. The challenge is to provide. Another object of the present invention is to provide an image display device fixing device for making it possible to project an image inside existing glasses having various shapes and sizes without a storage unit or a reflector.
Another object of the present invention is to provide a remote toast counter system using the image display device fixing device and a storage medium containing a program used for the image display device fixing device.

The image display device fixing device of the present invention is an image display device fixing device for fixing the image display device to the side surface or the vicinity of the side surface of a beverage container which is a bottomed tubular body having an upper opening. A fixed frame for fixing, a fixing mechanism for fixing the fixed frame to the beverage container, and an image aspect ratio control unit for changing the aspect ratio of an image of the image display device are provided, and the image aspect ratio control unit is provided. Is characterized by offsetting the horizontal enlargement of the image caused by the beverage inside the beverage container.
Further, the image aspect ratio control unit includes a lens arranged between the image display device and the beverage container, and the lens has a radius of curvature in the horizontal direction larger than a radius of curvature in the vertical direction. It is a feature.
Further, the lens distance adjusting mechanism for adjusting the distance between the lens and the image display device is provided.
Further, the lens is a minus lens and is characterized in that the image is reduced in the horizontal direction.
Further, the image aspect ratio control unit is provided with a squeeze image generator that generates a squeeze image in which an image is compressed in the horizontal direction.
Further, the squeeze image generator is computer software.
Further, the fixing mechanism is characterized by including at least one of a clamp mechanism, a suction cup mechanism, a double-sided tape mechanism, and a hook mechanism.
Further, as the fixing mechanism, an upper clamp mechanism for sandwiching the end of the upper opening, a plate-shaped coaster portion for installing the beverage container, a non-slip sheet made of a viscoelastic material, and the above. It is provided with an adjuster mechanism for adjusting the distance between the upper clamp mechanism and the coaster portion, and the non-slip sheet is characterized in that it is in close contact with the surface of the coaster portion on the side where the beverage container comes into contact. do.
The remote area toast counter system of the present invention includes the image display device fixing device, the beverage container, the portable communication device, an external server computer, and a user operation detection unit, and the image display device is the said. It is a part of the portable communication device, and the user operation detection unit causes the user to move, tilt, or collide with another object based on the output data of the acceleration sensor or the camera sensor of the portable communication device. Detecting that, the output signal is transmitted to the external server computer, the external server computer receives the output signal, counts the number of receptions and records it as the cumulative number of toast operations, and the user performs the toast operation. The feature is that the cumulative number can be viewed.
The storage medium of the present invention is a storage medium that stores a computer program used in the video display device fixing device, and generates a squeeze image obtained by horizontally compressing an image output by the computer program to the video display device. It is characterized by being.

The image display fixing device of the present invention functions in all beverage containers having a cylindrical shape or a shape close to a cylinder such as a glass, a cup or a beer mug, and the cylindrical beverage (liquid) inside the beverage container. It is possible to cancel the horizontal lens effect of. Therefore, if the image display device fixing device of the present invention is used, the image of the image display device fixed to the side surface of the beverage container can be viewed through the beverage inside the beverage container while maintaining the aspect ratio (English: aspect ratio). It is possible. This shows a particularly remarkable effect in the case of images and images containing characters.
The image display device fixing device of the present invention has a clamp mechanism for sandwiching the end of the upper opening of the beverage container, a plate-shaped coaster portion for installing the beverage container, and a distance between the clamp mechanism and the coaster portion. Since it is equipped with an adjuster mechanism that adjusts the temperature, a beverage container of any height can be firmly fixed to the image display device. The image display device fixing device of the present invention can be applied not only to glasses and beer mugs but also to bottle-shaped beverage containers having a lid on the top. In addition, the image display device on the side of the glass does not fall off even when the glass is moved, toasted, or tilted.
Since the image display device fixing device of the present invention includes a squeeze image generator that generates a squeeze image obtained by compressing the image in the horizontal direction as an image aspect ratio control unit, a margin of the compressed image in the horizontal direction is generated. Therefore, if another squeeze image is inserted in this margin, images and images for two or more screens can be projected horizontally through the beverage container. When the squeeze image generator is implemented as computer software built into the portable communication device, the image of the portable communication device is displayed through the beverage inside the beverage container while maintaining the aspect ratio (English: aspect ratio). It is possible to see.
By using the image display device fixing device of the present invention, it is possible to construct a remote toast counter system that aggregates and displays the number of remote toasts in beverage containers of various shapes.

A perspective view (a) and a cross-sectional view (b) showing the image display device fixing device of the first embodiment. A diagram showing the principle that an image transmitted only inside a beverage container is enlarged only in the horizontal direction. The figure which showed the lens used as an image aspect ratio control part Perspective view showing an image display device fixing device in which the distance between the image table device and the lens is variable. Perspective view showing an example in which a horizontal minus lens is used as the image aspect ratio control unit. A perspective view showing the image display device fixing device of the second embodiment. Processing flow diagram of squeeze image generator Flow chart of image vertical and horizontal compression processing program Diagram showing the configuration of a remote toast counter system

[First Embodiment of Video Display Fixture]
Hereinafter, the first embodiment of the image display device fixing device of the present invention will be shown with reference to the drawings.
As shown in FIG. 1, the image display device fixing device 1 has an aspect ratio of a fixed frame 2 for fixing the image display device 80, a fixing mechanism 10 for fixing the fixed frame 2 to the beverage container 100, and an image 82 of the image display device 80. It is roughly composed of the image aspect ratio control unit 20 and the image aspect ratio control unit 20.
The fixed frame 2 is a frame for fixing the image display device 80 (to the beverage container 100), and any shape may be used as long as the image display device 80 can be fixed. Examples of the material of the fixed frame 2 include glass, acrylic, rust-preventive metal, wood, and resin. In the examples of FIGS. 1 (a) and 1 (b), a U-shaped locking bracket 3 is used to fix the video display device 80 to the fixed frame 2, but instead of the locking bracket 3. A clamp mechanism, a suction cup, or the like may be used instead.
The fixing mechanism 10 is a fixing mechanism for fixing the fixing frame 2 (or the image display device fixing device 1) to the beverage container 100. In the examples of FIGS. 1 (a) and 1 (b), an upper clamp mechanism 11 for sandwiching and fixing the upper opening 101 of the beverage container 100 is provided above the fixing frame 2 as the fixing mechanism 10. Instead of the upper clamp mechanism 11, the fixing frame 2 may be fixed to the beverage container 100 by using a screw mechanism, a suction cup mechanism, a hook mechanism, a double-sided tape mechanism, or the like. In the example of FIG. 1 (b), the coaster portion 15 for arranging on the bottom surface of the beverage container 100, and the upper clamp mechanism 16 for adjusting the distance between the coaster portion 15 and the upper clamp mechanism 11 are used. The fixing strength of the beverage container 100 is strengthened by sandwiching the beverage container 100 between 11 and the coaster section 15 and always applying tension to fix the beverage container 100. The adjuster mechanism 16 allows the fixing frame 2 to be firmly fixed to the beverage container 100 of an arbitrary height. In FIG. 1 (b), a non-slip sheet 17 made of a viscoelastic material is closely arranged on the contact side surface of the beverage container 100 of the coaster portion 15 in order to further strengthen the fixing strength. As the material of the anti-slip sheet 17, rubber, cork, or the like can be considered.
The image aspect ratio control unit 20 is provided to prevent the image 82 of the image display device 80 from being enlarged and distorted only in the horizontal direction by passing through the cylindrical beverage L inside the beverage container 100. ing. In the examples of FIGS. 1A and 1B, an optical lens 21 is used as the image aspect ratio control unit 20. The lens 21 is processed so as to magnify the image only in the vertical direction (or the vertical direction), and the image 82 is magnified only in the vertical direction as shown in the image 83 of FIG. 1 (a) by passing through the lens 21. .. Image 82 prevents the beverage L from being magnified and distorted only in the horizontal direction (or lateral direction) by passing through the beverage L through the lens 21 (that is, an image magnified in the vertical direction using the lens 21). By generating 83, the aspect ratio of image 82 and image 84 transmitted through the beverage container 100 are the same). As the material of the lens 21, transparent glass, acrylic, or the like can be considered. The lens 21 is arranged between the image display device 80 and the beverage container 100 (the lens 21 may be arranged at any position as long as the horizontal distortion of the image can be canceled). A thin Fresnel lens or a minus lens may be used as the lens 21 or the image aspect ratio control unit 20 instead of the usual convex lens. As a method for realizing the image aspect ratio control unit 20, not only an analog method using an optical lens as shown in the lens 21 of FIG. 1 (a) but also a digital method applying video squeeze compression software can be considered. .. Details will be described in another embodiment described later.
Normally, the image display device 80 fixes the image display surface 81 of the image display device 80 toward the beverage container 100 to the fixed frame 2 as shown in FIG. 1 (b), but the touch panel or the like of the image display surface 81 is fixed. When operating, the image display device 80 may be turned over and fixed toward the side where the beverage container 100 is not provided.
The beverage container 100 for fixing the image display device fixing device 1 of the present invention is assumed to have the same bottomed tubular body as a normal beer mug. The beverage container 100 may have a cup shape without a handle 102 as shown in FIG. 1 (a).
In the example of FIG. 1, the beverage container 100 (or glass) is assumed to be a glass made entirely of transparent glass or a transparent resin like a normal glass, but in the present invention, the beverage container 100 (or glass) is assumed. Does not necessarily have to be entirely transparent, as long as it has at least one transparent area on the side of the beverage container 100 (or glass) that allows the image (or video) to pass through, the other parts are not transparent. It doesn't matter.

In order to explain the details of the lens 21, first, the horizontal lens effect of the liquid or beverage in the beverage container will be explained.
The shape of the beverage L inside the beverage container 100, which is a bottomed tubular body, is inevitably cylindrical or almost cylindrical as shown in FIGS. 1 (a) and 2 (2). Since the cylindrical shape is not curved in the vertical direction, the radius of curvature RV in the vertical direction of the beverage L can be regarded as infinite as shown in FIG. On the other hand, since the beverage L is curved in a circular shape in the horizontal direction, the radius of curvature RH in the horizontal direction is always a finite value (in the case of a glass of a normal size, the radius of curvature RH of the beverage L is several [cm] to About 10 [cm]). That is, the radius of curvature RV in the vertical direction of the beverage L is much larger than the radius of curvature RH in the horizontal direction. It is known that the magnification of an optical lens increases as the radius of curvature of the lens decreases (for details, refer to the lens formula and specialized books in the field of optics), and the refractive index of water light is compared to that of air. Since it is large, the image 85 that passes through only the beverage L inside the beverage container 100 expands only in the horizontal direction and is greatly distorted as shown in Fig. 2 (in other words, the beverage L is only in the horizontal direction). The image is distorted because it operates as a magnifying lens).
The lens 21 used as the image aspect ratio control unit 20 is a lens whose vertical image magnification is larger than the horizontal image magnification as shown in FIG. 3, that is, the horizontal radius of curvature RH is the vertical radius of curvature RV. It is a biconvex lens (or a plano-convex lens) that is larger than the lens. Therefore, by arranging the lens 21 between the image display device 80 and the beverage container 100, the horizontal lens effect of the beverage L can be offset. In other words, if a lens 21 with an appropriate vertical image magnification is used, the user U can visually recognize the distortion-free image 84, which is equally magnified in the horizontal and vertical directions as shown in FIG. 1 (a), through the beverage. ..
There is one caveat with respect to lens 21, and you should not use a normal lens with equal radius of curvature RH in the horizontal direction and radius of curvature RV in the vertical direction. This is because it is impossible in principle to cancel the horizontal distortion of the beverage L because the aspect ratio of the image 82 cannot be changed with a normal lens having the same horizontal and vertical magnifications. Therefore, it is necessary to use a lens 21 having a radius of curvature RH in the horizontal direction larger than that of the radius of curvature RV in the vertical direction. In an extreme case, the lens 21 may use a lens that expands only in the vertical direction, that is, a lens having an infinite radius of curvature RH in the horizontal direction.

As can be seen from the principle of the magnifying glass, the larger the distance between the optical lens and the object, the larger the magnification of the object (for details, refer to the lens formula and specialized books in the field of optics). Therefore, as shown in FIG. 4, the enlargement ratio of the image 84 in the vertical direction can be controlled by providing the image display device fixing device 1 with the lens distance adjusting mechanism 23 for adjusting the distance d between the image display device 80 and the lens 21. By using the lens distance adjusting mechanism 23, the user U can find the optimum distance d (that is, the vertical magnification) that cancels the distortion of the lens effect of the beverage L. Further, by using the lens distance adjusting mechanism 23, the user U can adjust the magnification of the lens 21 according to the diameter of the beverage container 100 and the type of the beverage L.
As shown in FIG. 5, a minus lens 22 that reduces or compresses the image in the horizontal direction may be arranged between the image display device 80 and the beverage L instead of the lens 21. The minus lens 22 is a plano-concave lens (or a biconcave lens) having a concave horizontal cross section with a horizontal image magnification of less than 1 time, and is used to offset the horizontal enlargement of the image by the beverage L. A Fresnel lens, which is a minus lens, may be used as the minus lens 22.
The lens 21 and the minus lens 22 may be stacked not only one lens but also a plurality of lenses, but in that case, since the problem of focus adjustment becomes large, one lens for focus adjustment may be inserted separately.

[Second Embodiment of Video Display Fixture]
Hereinafter, the second embodiment of the image display device fixing device of the present invention will be shown with reference to the drawings, but the parts having the same configuration as the image display device fixing device 1 of the first embodiment will be the same. Reference numerals will be given and the description thereof will be omitted.
In this embodiment, as shown in FIG. 6, a squeeze image generator 200 is used as the image aspect ratio control unit 20 instead of the lens 21. The squeeze image generator 200 generates a squeeze image 201 compressed or reduced in the horizontal direction from the data of the image 82 of the image display device 80 by computer image processing as shown in FIG. 7 (that is, the squeeze image generator 200 of FIG. 6 is described above. It works exactly the same as the minus lens 22 in FIG. 5 described in the first embodiment).
Since the squeeze image 201 is an image obtained by reducing the original image 82 in the horizontal direction in advance, it is possible to offset the enlargement of the image in the horizontal direction by the beverage L as shown in FIG.
The squeeze image generator 200 may be mounted inside a dedicated IC chip attached to the video display device fixing device 1, or may be mounted as software in an external server computer. Further, when the image display device 80 is a part of the portable communication device 300 as shown in FIG. 6, the squeeze image generator 200 may be mounted as the computer software built in the portable communication device 300. ..
As the algorithm for generating the squeeze image 201 compressed in the horizontal direction, a known algorithm built into the LD playback device, the DVD playback device, or the photo retouching software may be used.
FIG. 8 shows a flowchart of a computer program when the image 82 is compressed in the horizontal direction (horizontal direction) to generate or output the squeeze image 201.
Load the data of the original image 82 that has not been compressed in the horizontal direction in STEP 1 from the memory of the computer of the video display device 80 or the portable communication device 300. In STEP2, the image 82 is compressed in the horizontal direction (horizontal direction) to create the squeeze image 201. Then, in STEP 3, the squeeze image 201 is output to the video display device 80 or the portable communication device 300.
The computer program shown in the flowchart shown in FIG. 8 may be stored in a known storage medium such as a flash memory, DRAM, magnetic storage medium, or optical storage medium. Further, it may be installed (saved) in the form of application software in the memory in the portable communication device 300.
When a squeeze image 201 obtained by compressing or reducing the image 82 in the horizontal direction is generated, a margin 202 (English: pillar box) is always generated by the amount compressed to the left and right of the image as shown in FIG. Other squeezed images may be embedded in this margin 202, and if this is applied, images for two or three screens can be projected as image 84.
The image 82 and the squeeze image 201 may be images of each frame constituting the moving image.

[Implementation of remote toast counter system]
Hereinafter, embodiments of the remote toast counter system of the present invention will be described. The parts having the same configuration as the image display device fixing device of each of the above embodiments are designated by the same reference numerals, and the description thereof will be omitted.
Most models of portable communication devices such as mobile phones and smartphones have built-in acceleration sensors and camera sensors. The accelerometer can acquire the amount of movement, the amount of inclination, and the presence or absence of collision with another object based on the acceleration of the object in which the sensor is built. The camera sensor can also acquire the amount of movement of an object, the amount of inclination, and the presence or absence of collision with another object by image analysis. Therefore, in the remote toast counter system of the present embodiment, as shown in FIG. 9, the image display device fixing device 1 of the present invention, the beverage container 100, the portable communication device 300, the external server computer 400, and the user operation detector 302 And.
Based on the signal from the sensor 301 of the portable communication device 300, the user operation detection unit 302 detects the user operation (collision with another beverage glass 500, tilt operation, etc.) on the beverage container 100 and is located at a remote location. Send to server computer 400 etc. As shown in FIG. 9, the remote server computer 400 can obtain the remote toast counter system by counting the number of receptions and recording it as the cumulative number of toast operations so that it can be viewed and published. ..
The user operation detection unit 302 may be mounted inside a dedicated IC chip attached to the image display device fixing device 1, or may be mounted on an external server computer or a portable communication device 300.

The present invention is an image display device fixing device for firmly fixing an image display device to a beverage container of various shapes and sizes, such as a horizontal image due to the lens effect of a beverage inside the beverage container. Since distortion due to enlargement of the image can be prevented, the user can visually recognize the image or video without distortion even through the beverage. From the above, the present invention has industrial applicability.

L Beverage (liquid)
RV radius of curvature (vertical)
RH radius of curvature (horizontal)
U user
d distance
1 Video display device fixing device
2 Fixed frame
3 Locking bracket
10 Fixing mechanism
11 Upper clamp mechanism
15 Coaster section
16 Adjuster mechanism
17 Anti-slip sheet
20 Image aspect ratio control unit
21 lens
22 Minus lens
23 Lens distance adjustment mechanism
80 Video display device
81 Video display surface
82 images
83 image (image transmitted through the lens)
84 images (images transmitted through the lens and beverage)
85 images (images that are transparent only to beverages)
100 Beverage container
101 top opening
102 handle
110 Beverage container
200 squeeze image generator
201 squeeze image
202 Margin (pillar box)
300 Portable communication device
301 sensor (accelerometer, camera sensor)
302 User operation detector
400 server computer
500 other beverage glasses

Claims (10)

1. An image display device fixing device for fixing an image display device on or near the side surface of a beverage container which is a bottomed tubular body having an upper opening.
   A fixed frame for fixing the video display device and
   A fixing mechanism for fixing the fixing frame to the beverage container,
   It is provided with an image aspect ratio control unit that changes the aspect ratio of the image of the image display device.
   An image display device fixing device, wherein the image aspect ratio control unit cancels out the horizontal enlargement of the image caused by the beverage inside the beverage container.
   
2. As the image aspect ratio control unit, a lens arranged between the image display device and the beverage container is provided.
   The image display device fixing device according to claim 1, wherein the lens has a radius of curvature in the horizontal direction larger than a radius of curvature in the vertical direction.
   
3. The image display device fixing device according to claim 2, further comprising a lens distance adjusting mechanism for adjusting the distance between the lens and the image display device.
   
4. The image display device fixing device according to claim 2, wherein the lens is a minus lens and reduces the image in the horizontal direction.
   
5. The image display device fixing device according to claim 1, further comprising a squeeze image generator that generates a squeeze image in which an image is compressed in the horizontal direction as the image aspect ratio control unit.
   
6. The image display device fixing device according to claim 5, wherein the squeeze image generator is computer software.
   
7. The image display device fixing device according to any one of claims 1 to 6, wherein the fixing mechanism includes at least one of a clamp mechanism, a suction cup mechanism, a double-sided tape mechanism, and a hook mechanism. ..
   
8. As the fixing mechanism
   An upper clamp mechanism that sandwiches the end of the upper opening,
   A plate-shaped coaster part for installing the beverage container and
   Anti-slip sheet made of viscoelastic material and
   It is provided with an adjuster mechanism for adjusting the distance between the upper clamp mechanism and the coaster portion.
   The image display device fixing device according to any one of claims 1 to 7, wherein the anti-slip sheet is in close contact with the surface of the coaster portion on the side where the beverage container comes into contact.
   
9. The video display device fixing device according to claim 6 and
   With the beverage container
   Portable communication device and
   With an external server computer
   Equipped with a user operation detector
   The video display device is a part of the portable communication device, and the image display device is a part of the portable communication device.
   The user operation detection unit detects that the user has moved, tilted, or collided with another object based on the output data of the acceleration sensor or the camera sensor of the portable communication device, and outputs the output signal to the outside. The external server computer receives the output signal, counts the number of receptions and records it as the cumulative number of toast operations, and the user can view the cumulative number of toast operations. Remote toast counter system.
   
10. A storage medium for storing a computer program used in the video display device fixing device according to claim 5 or 6.
    A storage medium characterized in that the computer program generates a squeeze image obtained by horizontally compressing an image output to the video display device.
    
    

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