TH17335A - A picture display consisting of multiple dots - Google Patents

Abstract

The invention is concerned with dot-matrix displays that are good for graphics and more. This new display can have From the subject of the image point present on (such as a decoration), a film, or a piece connected to an energy source that provides energy for the motion of the film. The movement of the film with The directed subject produces a display that diffuses light from the decorated subject. Actuated film Electricity is well-known in this field of science, for example pieelectric film, electrostatic film, electromagnetic film. And electrostatic film Magnetic film It is well known in this field of arts. Any type of these films can have a point subject and receive energy. To move to make Generated by isolated light

Claims (5)

1. A display that consists of a subject of multiple dots that exist on a component. Which can be connected to the power source For part movement Where the movement of The part that is the subject of the image point separates the incident energy. To give birth The energy of the point of view from the subject of the pixel 2. A display, as stated in claim 1, where the part is It consists of a booster 3. Image display as stated in Clause 2 where the subjects of multiple dots are decorated on the booster. Clause 3 where the pressure-increasing parts The decorations reflect the energy of the image point. 5. Image display, as stated in claim 3, where the pressure-boosting parts are It is a design for transmitting the incident energy to generate the energy of the image point. 6. Image display as stated in Clause 3 where the subject is decorated. It is directly on the booster. 7. Visualization according to claim 3, where the subject is decorated. On the film, which is coated with the booster part. 8. Image display, as stated in Clause 1, where the part is It is connected to a magnetic or electric source. 9. A visual display, as stated in Clause 2, where the pressure booster parts are It is connected in parallel to that source. 1 0. Display screen according to claim 2, where the parts are to be connected. Serial to Power Source 1 1. Visualization, as stated in Clause 3, where the parts are connected. With electric source To use the movement of the part 1 2. Visualization, as stated in Clause 11, where the pressure booster parts They are connected in parallel with the power source 1. 3. Visualization, as indicated in Clause 11, where the booster part is It is connected in series with the power source. 1. 4. The matrix of the monitor. As stated in Clause 1 1 5. The matrix of the picture display. As stated in Clause 3 1 6. Visualization as stated in Clause 3, where the intensifier is made of a layer of polyvinylidene fluoride (PVDF). ) 1 7. Visualization, as specified in Clause 1, where the parts With a rocker rod and a pair of ends Each pair has an electrically powered coil which is magnetically coupled. By a pair of magnets Which is away from the end of the part Where the power of the coil will cause the part to rotate around its rocker axis 1 8. Visualization, as stated in claim 17, where the magnet will articulate. Attach with a magnetic force through the magnetic back. 1 9. Visualization, according to Clause 17, where the magnet will be located. Under the tip of the part 2 0. Visualization, as stated in Clause 17, where the magnet is next. From the end of Part 2 1. Visualization as stated in Clause 20 where the sound film will be. Above, at least, one of the magnetic pairs. With another coil to provide electrical energy Is between sound film and magnet in tandem Where the emf caused by The current in the other coil is curved over the sound film. Where the power To another coil This will cause the sound film to vibrate to produce sound. 2. 2. A display that consists of multiple pixels. Transmission point Consists of: (a) a solid outer transparent hard part with an outer face and an inner surface by such parts. Regulates the reflected energy that falls on its inner surface; (b) A separate lens with an outer face and an inner surface. And stay close to the parts Solid that is transparent on the outside; (c) Opaque barrier with an outer face and an inner surface. And where there are openings With a separate lens And is close to the inner surface of the lens; And (d) a separate piece shared through an opaque barrier opening. Where the separate parts have the inner surface and the surface of the image points of energy. The outside is close to the opening of the barrier. Where the surface of the image point contains the subject Image points to extract the energy that passes through it. When the parts are in Relaxed state by separate pieces Connected to the electricity source that affects The birth of a selected state And where the parts can be replaced Physical from its position in a relaxed state By parts will be tolerated Let the dissipation of energy pass through there When such parts are in A state of stimulation; Where the energy transmitted through the subject of the image point is diffused and then passed through the aperture through the lens which collects light or focus energy distributed over a transparent solid part. Holds the right to Article 22, where the model of The dots are decorated in parts 2. 4. A display as described in Clause 22, where the subject of Image points will be decorated in the submission layer. Which will be plastered next to the part. 2. 5. Visualization, as stated in Clause 23, where the transparent rigid parts are The outer surface of the outer surface is coated with a non-linear coating to control the energy coming into effect of the inner surface of the transparent hard part. 2 6. Visualization as specified in the Clause Clause. 22 where separate lenses will be One or more holographic lenses Or a diffuse lens. 2. 7. Image display as stated in Clause 22, where such parts As a pressure booster part. 2. 8. Image display as specified in Clause 22, where such parts With a rocker rod and a pair of ends Each pair of them has an electrically powered coil that is magnetically joined by a pair of magnets. Which are separated from the ends of the parts Where power to the coil causes the part to rotate around its rocker axis 2. 9. Visualization as stated in claim 28, where the magnet It is magnetically attached through the magnetic back 3 0. Display screen, as stated in Clause 28, where the magnet will be located. Under the tip of the said part 3 1. A visual display, as indicated in Clause 28, where the magnet will be aligned. 3 2. Visualization, as stated in Clause 31, where the sound film will at least be placed above it. It's one pair of magnets With another coil that provides electric power Is between the sound film and the magnet in a tandem Where the electromotive force that occurs The current in the other coil is curved to the sound film. And where power to the other coils will cause the sound film to vibrate to produce sound. 3. 3. Visualization as stated in Clause 27, where the booster It is composed from a layer of polyvinylidene fluoride (PVDF) 3 4. Red screen, as described in Clause 22, where the function is shown in (b). - (d) consists of: a film with an outer light-transmitting surface Which is a function of (d) and the holographic image generated by the focus of the opening. It is a list of (b) and (c), where the film is located away from the part (a) used to create the image on the surface. Inside of part (a) 3 5. A reflex multi-point display. It consists of: (a) a hard, transparent outer surface with an outer face and an inner surface, through which it transmits incoming energy and hits on its outer surface but controls the reflected energy that falls. Impact on its inner surface; (b) A separate lens with an outer face and an inner surface. And stay close to the parts Solid transparent outside In which the lens will focus energy penetrating Through hard and transparent parts outside And which strikes upon it; (c) Opaque barrier with an outer face and an inner surface. And that has a common open channel With a separate lens And which are located closer to the outer surface of the lens; And (d) the parts that coexist with the opening of the opaque barrier. Where parts will have a surface Reflects external energy close to the opening of the barrier. By reflecting surface The image will be separated. This provides a selective diffuse energy reflection that strikes the outer surface when the component is in a relaxed state, and the component is connected to an electric source that affects its generation. Selected state stimulated, so the part is physically replaced. From its position in a relaxed state In which such parts will be The reflection of the fragmented energy coming onto the surface of the Such parts When a piece is in an energized state; Where the incident energy on the outer surface of the rigid and transparent part passes through and focus through the opening and the incident on the split, the selected energy is reflected back from the split through the opening. Through the aforementioned lens, the selected energy is focused on the outer surface of the hard and transparent part. 3 6. Image display, as stated in Clause 35, where the subject of the point. 3 7. Visualization as specified in Clause 35, where the model of the Spread points are retouched in the transmission layer. Which will be coated and sealed with the part. 3 8. Image display as specified in Clause 35, where the part. As a pressure booster part. 3. 9. A display as specified in Clause 35, where such parts. It has a rocker rod and a tip pair where each pair of them has a coil that supplies electrical power. Which is magnetically coupled using a pair of magnets Which will separate from the end of Such parts By powering a coil, it causes a part to rotate around its rocker axis 4 0. Visualization, as stated in claim 39, where the magnet The magnetic force is attached through the back of the magnet. 4 1. Visualization, as stated in claim 39, where the magnet is It is located beneath the end of the part 4. 2. Visualization, as stated in Clause 39, where the magnets are aligned. With and at the very end of the part 4. 3. Visualization, as stated in Clause 42, where the sound film will be above. The least One of the pairs of magnets With another coil that provides electric power Between sound film and magnet in tandem And by the resulting electromotive force From the current in the other coil curving to the sound film And by which power the coil Another coil made the sound film vibrate. 4 4. Image display as stated in Clause 35, where the booster They are connected in series with the power source 4. 5. Visualization, as stated in Clause 35, where the booster It consists of a layer of polyvinylidene fluoride (PVDF) 4 6. The display, as stated in Clause 35, the functions of (b) - (d) include: A film with a surface that transmits light outside it. Which is a function of (d) and a hologram created by the focus of the opening. This is a function of (b) and (c) where the film is located away from the part (a) used to produce the image on the inner surface of the part (a). Light, as selected from the incident energy on the monitor, which includes: (a) a dot arrangement where the energy transmission subject is, where the dot is connected to a power-generating source. To make the image point move Where the subject of Transmission of such energy Will be moved by the motion of the image point And where the motion of the subject transmits energy Will transmit energy Impact on the subject, transmitting that energy To generate energy from transmission from The model transmits it; (b) directing energy to the raised edge of the energy-transmitting subject; And (c) the motion control of the image point. With a power source To determine the distance that affects how the subject passes energy, it controls the energy that is transmitted. As Selected, Created 4 8. Methods outlined in Clause 47, which will be displayed include: Subject of the decorative image point on the booster part. In which the pressure booster parts are connected 4 9. Methods outlined in Clause 48, where the directed energy is Contains visible light And the booster parts are controlled to produce the selected color. 5 0. Method as stated in Clause 48, where the display consists of. The matrix of the pressure booster parts To provide an optional matrix of dot energy. 5. 1. The method specified in claim 49, where the display consists of: The matrix of the pressure booster parts To provide a matrix of the selected color. 5. 2. Method, as outlined in Clause 48, where the decorative parts are Will reflect the directed energy. 5 3. Methods outlined in Clause 48 of Clause 48 where the decorated parts are It is sent to the directed power. 5 4. Method as stated on clause 47 where the parts have a rocking point at the center. Of its gravity and the set of extremities With each of its pairs having a payout size Electric power Which are magnetically bonded by a pair of magnets Which will separate from End of part Where power to the coil causes the part to rotate around its rocking point. 5 5. Visualization, as stated in Clause 54, where the magnet will articulate. Attach it with a magnetic force through the back of the magnet. 5 6. An image is shown in accordance with Clause 54 where the magnet will be. End of Fragment 5 7. Visualization As stated in Clause 54, where the magnets are placed next to the And at the very end of the part. 5. 8. Screen Display As stated in Clause 57, where the sound film will be at least over it. One of the pairs of magnets Where the coils that provide more electric power One coil is between the sound film and the magnet in tandem. Where the electromotive force Caused by the current in the other coil Will curve towards the sound film And by providing energy To the other coils, the sound film will vibrate to produce sound. 5. 9. Method as stated in Clause 47, where the display shall consist of: (a) transparent solid piece. The outside with the outer face and the inner surface by the parts Will regulate the reflected energy on the surface The inside of it; (b) A separate lens with an outer face and an inner surface. And stay close to the parts Solid that is transparent on the outside; (c) Opaque barriers with a outer face and an inner surface and a joint opening. With a separate lens And located closer to the lens of the inner surface; And (d) separate transport parts shared with the stopper opening. Such opaque With separate parts having inner face and face surface Of the visual point of the outer energy is aligned with the opening of the barrier. Which the surface of the image point has a subject to separate Energy passing through there When a piece is in a relaxed state The separate parts are connected to the power source which affects the generation. Selected state triggered, so the part will be replaced. Physically, from its position in the relaxed state, where such fragments are distributed, the penetrating energy is dissipated there. When a piece is in a stimulated state; Where the energy transmitted through the subject of the image point is dissipated And let it pass through Opening through the lens It focuses the energy distributed on a transparent solid piece. 6 0. Image display As stated in Clause 59, where the function of (b) - (d) consists of: a film with a surface. Transmits such outer light Which is a function of (d) and a hologram created by the focus of the opening. This is a function of (b) and (c) where the film is located away from the part (a) that affects the focus of the image. On the inner surface of the part (a) 6 1. The method described in Clause 47, where the supplied display consists of: (a) a transparent outer hard piece with an outer face. And inner surface by such parts Passes the incoming energy on its outer surface and regulates the reflected energy on its inner surface; (b) A separate lens with an outer face and an inner surface. And stay close to A solid piece that is transparent on the outside The lens will reflect the energy passing through. Hard parts that are transparent on the outside And that falls on it from the lens of The outer surface goes on a hard, transparent piece on the outside. By such energy Is reflected back through the lens; (c) Opaque barriers with an outer face and an inner surface, and with a power opening in combination with a separate lens. And located close to the lens of Inner surface; (d) The part that joins the opening of the opaque barrier. In which this piece will There is energy outside, reflected on the surface, which is close to the opening of the barrier. Which will reflect the surface where the image is separated Which will give a reflection Inverted energy of the selected visual point incident on the outer surface when the part is in a relaxed state by a component connected to an electric source that affects the selected excitation state. Said to be physically replaced from Its position in a relaxed state The parts will be The reflection of the energy of the incident image on a piece of Outside surface When a piece is in an energized state; Where the incident energy on the transparent hard part of the outer surface Will pass through there It is directed through an opening and an incident on the split, and after that the selected energy is reflected back from the split through the aperture through the lens. Which will focus selective energy on the hard, transparent parts of the chest surface. 6. 2. Image display, as stated in Clause 61, where the functions of (b) - (d) consist of: film. With a surface through such outer light Which is a function of (d) and a hologram created by the focus of the opening. This is a list of (b) and (c) where the film is located away from the part (a) that affects the focus of the image. On the inside surface of the part (a) 6 3. A picture display consisting of Piezoelectric film With the model of Transmits light to create a holographic image. Where the piazoelectric film It is connected to an electric power source to move the piezoelectric film. Where the subject passes Light to create such holographic images. Will be moved by the motion of the film Piazo Electric said And where the movement of the subject transmits light to create the image Such holographic Will be a transmission of incident energy to the subject through light To create such holographic images To generate energy from the light transmission as it is selected from various transmission subjects. To create a holographic image. 6 4. Display the image as stated in Clause 63, where the holographic film. Decorated piezoelectric Reflect the energy of the image. 6 5. Screen Display As stated in Clause 63, where the Piezoelectric Will be sent to the incident energy 6 6. Image display As stated in Clause 63, where film type Piezoelectric They are connected in parallel with the electrical source. 6 7. Visualization As stated in claim 63, where the film Piezoelectric It is connected in series with an electrical source. 6 8. Piezoelectric film matrix. Decorated As stated in Clause 63 6. 9. Image display As stated in Clause 63, where the film is Piezoelectric is a polyvinyl idene fluoride (PVDF) 7 0. A display consisting of a model of a decorative dot on a part. Where the piece There is a rocking point at the center of its gravity. And end-to-end pairs where each pair of them has coils that provide electric power. They are magnetically bonded by a pair of magnets, which are separated from the end of the part, where power to the coil causes the part to rotate around its rocking point. To dissipate the incident energy, it generates the energy of the image point from the body 7. 1. Screen display as stated in Clause 70, where the magnet will be attached. Attach with a magnetic force through the back of the 7 magnet. 2. Visualization, as stated in Clause 70, where the magnet will be attached. Attach with a magnetic force through the back of the 7 magnet. 3. Visual display as stated in Clause 70 where the magnet will be located. Below the end of the piece 7 4.Visual displays, as stated in Clause 70, where the magnets are located And at the end of that piece 7 5. Screen display, as stated in Clause 74, where the sound film will at least be superseded. One of the pairs of magnets With another coil that provides electric power Is between sound film and magnet in tandem Where the emf caused by The current in the other coil is curved towards the sound film. And by powering the other coil, the sound film vibrates to produce sound.