JP2007017922A - System - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a system for speedily producing a precise, actually useful and practical object (having functionalities), and to provide a process for manufacturing the practical object. <P>SOLUTION: A three dimensional (3-D) object is produced in the system. By a micro-display, with quick response time for a sample, the 3-D object is made possible with high solution. An image is artificially created by a computer aided design (CAD) model. Imaged light is reflected on a material. The material responds to the projected light and is hardened or softened, or cut into a desired shape created by the projected light. It can be predicted that the image creates the 3-D object on the surface or inside a subject. <P>COPYRIGHT: (C)2007,JPO&INPIT

Description

  device

USPTO 6,504,127 “Laser Merge Methodology and To Produce Accurate Structures As MaGregor, et al., Gushing Materials January 7, 2003 to make 3D laser scanners using structures mechanism". But this method is not fast enough for modern applications.

The problem is to provide a system for producing high-speed, high-precision, more practically useful / practical objects (also having functionality), and a process for producing practical objects. It is also an object / problem of the present application to easily make a 3D image device, an audio device, an integrated circuit, or a medicine.

To overcome / improve the speed of traditional three-dimensional prototyping, we use a system that projects fast images for ray prediction with fast reactants. First, the recent development of microdisplays is one of the factors for us to create a three-dimensional object generator with high resolution and high resolution. Second, recent developments in materials where fast reactants to beams such as photons (microwave limit, infrared ultraviolet, visible limit, etc.), electron beams, ultrasonic beams, etc. are another factor Did us to create a three dimensional object generator. The material reacts chemically, either hardened, softened, or energy cut at the frame edge (such as a laser beam). Third, the development of three-dimensional image / object input device is available, like the scanning system SONY, Konica Minolta makes the three-dimensional input device fast and high definition . Fourth, of course, the computer speeds of recent years have increased much to allow us to make the system much faster as well. The way this system operates is to expect light rays that have an image to material means to react with them emit light. By controlling images and materials with a fast computer, one can quickly create three-dimensional objects. As an option, a 3D input device can be added to get 3D image / object data. As an option, the relative distance between the object and the projector can be controlled by the base height / position controller or by the projector height / position controller. For example, add a layer of liquid chemical source and harden the chemical with blue light to adapt the surface height to the proper position. Then add layers that should be repeated an appropriate number of times to create a 3D object by adding the reduced parts / layers / numbers of the object. Improvements in the invention of this device may handle the summation of target / practical objects with a high accuracy / institutional solution. It may require micro / nano level control for the purpose to clarify a 3D image on a 3D display. By printing, painting, filling, wandering, assembling frames / patterns, making lenses, spouting heat / mist / jet / ink, and printing these indefinitely Is available.
Ultraviolet / infrared lamp / microwave / electron beam patterns may be used to assemble units / pixels / patterns / frames. It may make sharper / higher contrast images with clear edges. A three-dimensional object (image) may be displayed / represented / projected / displayed in combination with a lens And / Or pinhole lens. Embed, mix / match fast printing, high image quality, many colors, multiple functions / materials. (By spray / mist / jet / doctor blade method, etc.) Frame / matrix / frame is created by adding / applying material / UV solvent / ink / copying material / material to be dried and adding / adding material / material Or subtract. These may be produced / introduced / inserted at the same time as the frame to better mix multiple inks / materials / materials. Of course, the material may be administered after the frame is made.
Codes / frames / codes (two-dimensional / three-dimensional / color code / three-dimensional patterns) are created on the top, bottom, side, etc., and used for alignment when creating objects. This is particularly effective for height adjustment. You may build up the code at the same time you create the object.
It is also a functional object circuit, medicine (medicine / package / content), pattern generator, operator, music performer, speaker, microphone, circuit, integrated circuit, microprocessing unit, central processing unit, multiple processing units, Hard drive, hard disk, nano structure object, toy, robot, nano robot, nanoid, DNA, RNA, gene sequence, code, game, electrical product, soft, hard, target material, clear film, clear May be a non-film, functional intermediate film-like device, Yoshino Time Machine may be made using this invention / process.
May be used to have robot hand / arm (with sensor) have correct / appropriate location instructions. This is even more practical for creating three-dimensional (object-) objects. Setting the appropriate location, position, angle, and / or multiple functional materials / color paints / inks / solvents for operation may create more complex objects.
It is a transistor material, diode, resistor, capacitor, integrated circuit, tape, laser disk, compact disk, magnetic element, electrical element, magnetic recording device, electrical recording device, optical recording device, difficult disk, memory system Circuits such as memoria tissue and fill insulators / non-conductive materials / conductive materials / semi-conductive materials / functional materials suitable lines / frames / integrated frames / patterns May make.

The position, width, width, height, angle, and code are accurate, and multiple bodies can be matched. The pattern / frame fits the lens with high accuracy. Since the ink can be easily added and subtracted, the manufacturing cost can be reduced by partial correction. A desired object (having functionality) can be manufactured at high speed. If rotation and the like are included, an object with higher image quality, higher functionality, and higher structural three-dimensionality can be created. Multiple materials / materials / factors / inks / resins / patterns / frames can be used to create objects with more advanced practices / functions. A display device / display for 3D objects (images) can be easily created.

BEST MODE FOR CARRYING OUT THE INVENTION

Figure 1 shows the concept of a three-dimensional object generator. This shows a solution / functional material 1 emitter system, a light emitter system, a solution / functional material two emitter system. Solution / functional materials 1 and 2 may be the same or different for different systems / applications. Beams, arc lamps, beam emitter systems such as lasers, electron beam sources, microwaves are immit / emitted to galvanometer / DMD / micro display systems, or are emitted / emitted from display systems. Such as frames / frames / beams that react / immit / release. Materials, materials, and materials are hardened, softened, stacked, cut, manipulated by applications, or built into 3D objects through a combination of these. As an option, the location (position and / or direction) of the material may be controlled. Similarly, as an alternative / option, a variable focus method / lens / telecentric method is used, and a clearer, higher performance object / image / internal structure (two-dimensional / three-dimensional / multi-dimensional) object You may create it. May be used to cause a clear image of the material.
Figure 2 shows another form of (three-dimensional) object generator. Some materials such as solvents / materials / materials / functional materials / color paints / inks / commands may be placed at the head of an (3D) object generator for faster / convenience operations not.
Figure 3 shows how to develop object layers / sections / entities in other ways. Images / frames / functional structures can be stacked / stacked on each surface of an entity / material while being sensed. The material may be fitted / functionalized in a frame that is pattern decorated. Depending on how hard, softened, added, pulled, cut, controlled, manipulated, or any combination of these, the system moves the level / layer / unit / section to the next level / layer / Change the position and angle of the emitter / receiver / head / base to move / go to the unit / section. By repeating this, the present invention can achieve its goal to create (multidimensional) objects. Similarly, by having focus on the inner layer, it may directly operate / control the interior of the material.
Figure 4 shows an example of manufacturing a Practical Object using a robot hand / arm device with multiple degrees of freedom. A three-dimensional image / object input device outputs a three-dimensional image / object in such a short period of time, or outputs an object redundantly. A three-dimensional actual object may be input / input and copied as an actual object. For example, a cat (life form) may be copied to form a cat (copy / life form).
There may be multiple units used as a single base. A single base sets / adjusts / changes locations such as position (including height) and / or angle to cause setting a base of multiple dimensions accordingly. It can be made of silicon, metal or organic / inorganic material. But it may build the structure by / hold / capture / release (at the right time) with the robot hand / arm, using the appropriate location, angle and selection / indicator with other materials. Maybe The response time is very short, so images / patterns / 3D patterns can be generated very quickly. This can be used for various applications, target objects such as 3D displays. The three-dimensional object generator is composed of appropriate light field generators, lenses, displays, slots, patterns, pattern generators, operators, music performers, speakers, microphones, medicines / drug packages, Circuits, integrated circuits, central processing units, multiple processing units, hard drives, hard disks, objects, bio-chips, replicas, genes, nanostructures encoded, toys, games, electrical products, soft, hard Objective objects such as objective material and functional movies, Yoshino Time Machine (nano type, etc.) may be produced. Yoshino may obtain multiple degrees freely.
Figure 5 shows an example unit of a multi-dimensional (especially 3D) display / stereo set / device. Light / Laser / Pattern Makers make lenses / slots / patterns on top of pixels / picture courses / sections. This division / number is like a microlens and shows an example of a matrix light unit that can be used as a 3D display. Multiple units may be arranged in an array (matrix / tensor) to create a practical 3D image / sound.
Figure 6 shows a side view example of a (3D) light / sound unit diagram. Location and wave direction may be assigned.
Figure 7 shows an example view of the top view of the (3D) light / sound unit. Location and wave direction may be assigned.

Figure 1 shows an example of the concept of the length of a three-dimensional object generator. Figure 2 shows an example diagram instead of the length of a three-dimensional object generator. Figure 3 shows how to develop a multi-dimensional object layer / matrix / strut in an example method. Figure 4 shows an example connection to a three-dimensional image / object input and / or output. Figure 5-1 shows an example of a matrix light unit that can be used as a three-dimensional display with a microlens. Multiple units may be lined up to create a practical 3D image / sound. Figure 6 shows an example side view of a (3D) light / sound unit. Location and wave direction may be assigned. U Figure 7 shows an example view of the top view of the (3D) light / sound unit. Location and wave direction may be assigned.

Claims (18)

A system suggested by drawings, abstracts, and specifications. A system process as claimed in claim 1, as suggested by the drawings, abstract and description. 1) Radiation means 2) Operating means 3) Image generator means 4) Substance supply means 5) Control means 6) Sensor input means 7) As an option, an object generator composed of a group of variable focus means. In Claim 1, the said radiation means is a pattern light generator, a radiation generator, a frame, a beam, a photon generator, an electron generator, a fine piece generator, an ion generator, a laser, an arc lamp, visible light, an extremely violet light, In a group selected from Infrared, Microwave, Ultrasound, Extreme Violet Ray, Extreme Violet Laser, Blue Touching Light Laser, Diode Array, Pattern Generator, Laser Pattern Maker, Laser Array, Diode Laser, Diode Layer Configured object generator. 2. The operating means according to claim 1, wherein the operating means is a lens, a telecentric system, a variable focus system, a magnetic lens system, an appropriate combination of optical lens systems, a reflector, a light beam navigator system with sensitive and dynamic lenses, a cutter, an adder An object generator that consists of a group selected from a subtracting maker. 2. The image generator means according to claim 1, wherein the image generator means is a micro display, a photographic display, a three-dimensional pattern generator, a multi-layer pattern generator, a digital mirror device, a liquid crystal, a liquid crystal on silicon, a dynamic valve, a matrix An object generator consisting of a group selected from a system that decorates patterns of living organisms, matrix light units, and sensitive / dynamic panels. 2. The substance supply means according to claim 1, wherein the substance supply means is a liquid plastic, metal, plastic, liquid substance, sturdy substance, gas substance, photosensitive substance, electron sensitive substance, beam, color pigment, target object, target substance, Substance that reacts to the desired substance, the appropriate substance to perform properly, the substance that has the right behavior, the sensitive / dynamic substance, ink, jet, projector, imitter, spatterer, doctor blade, mist generator,
An object generator composed of a group selected from or means for supplying these substances. The control means according to claim 1,
Material supply controller, image controller, height controller, valve controller, image accounting manager, computer, input driver, position controller, angle / direction controller, color controller, function controller, controller, robot hand, An object generator consisting of a group selected from robot arms, mechanical pens, material character modifiers / setters, and sensitive and dynamic controls. 2. The sensor / input means according to claim 1, wherein the sensor / input means is a sensor, a photo sensor, a position sensor, a direction sensor, a color sensor, an information sensor, an actual sensor, a photo sensor, a sound sensor, a temperature sensor, a vibration sensor, a field sensor, and a possibility. A certain sensor, triangular three-dimensional image input device, mesh-oriented three-dimensional image input device, thin-cut type three-dimensional image input device, multi-eye three-dimensional image input device, one Eye change image input device, multiple eye change image input device, single eye single 3D image input device, ultrasonic 3D image input device, general object input device, sensitive / dynamic An option consisting of a group selected from the object device. Project generator. 6. The group according to claim 1, wherein said focus changing means is a group selected from a lens system having a piezo lens, a motion generator, a mechanical lens, a variable lens, an acoustic lens, an electric lens, and a lens whose focus is changed by control. An object generator that consists of 1) First process to adjust the entity so that it has the appropriate state such as image, color, position and orientation, composition, composition, function 2) Cloth liquid such as beam reaction solvent is applied to the entity by the emitter 3) Process to create a pattern such as a code or a frame by administering a beam 4) Metal, silicon, ink, drug, cell, etc. The fourth process of filling and satisfying a receiver 5) The fifth process of sensing movements, states, codes, statuses, states and entities by sensors to determine whether they are decoded or not 6) Metals, silicon, inks, drugs by subtractors Or a functional material receiver like a cell Extracting sixth process 7) Characteristically, a multidimensional practical object is generated by an appropriate timing and combination of process components such that an appropriate combination of the first process to the sixth process is repeated an appropriate number of times. process. 2. The first process according to claim 1, wherein the first process includes a group of combinations of process components such as alignment, angle alignment, control, robot handling, robot arm control, encoder control, PWM control, PID control, matrix control, and optimal control. A process characterized by creating multidimensional functional objects by process. 2. The second process according to claim 1, wherein the second process uses an emitter to add a material such as a beam reaction solvent, to extract, to amplify, to multiply, to increase, or to increase. Cracking, ventilating, winding, evaporating, depositing, spraying, brushing air, inking ink mixing, touching and finishing Multi-dimensional by the process of grouping by combining the components of the process, such as milling, solidifying the radiation reaction solvent provided by radiation, making the frame, the beam is ultraviolet, the beam is infrared, etc. A process characterized by creating a functional object. 3. The method of claim 1, wherein the third process comprises irradiating a photosensitive material with ultraviolet rays to form a pattern and hardening it to optically construct or assemble a pattern or frame, and if necessary, add additional materials in the frame. Select a position, direction, material presentation, etc., create a 3D structure or next layer, brush, add, pull, collect, etc. to create a frame pattern A process characterized by creating a multidimensional functional object by a group process by a combination of process components. In claim 1, the fourth process comprises:
Performing with an imitter, droplet drop device, spray, jet, miss and machine, ink is adding functional material, cells, adding cells, pulling out, adjusting, controlling, Amplifying, Proliferating, Stirring, Increasing, Cracking, Ventilating, Winding, Evaporating, Vaporizing, Spraying, Air Brushing, mixing ink, touching, finishing, milling, dispensing the material into the flame with the radiation reaction solvent provided by the radiation,
A process characterized by creating a multidimensional functional object by a group process based on a combination of process components. In claim 1, the fifth process comprises:
The process of sensing, measuring, checking, typing, coding, and coding the codes and states that make up a group, sensing movements, entities, and states Decoding status and status,
A process characterized by creating a multidimensional functional object by a group process based on a combination of process components. In claim 1, the sixth process comprises:
By subtractor,
Extracting, adding, adjusting, controlling, losing, reducing, eating, cracking, ventilating, such as ink, functional materials, cells, cells, etc. Running, winding, straightening, evaporating, diverging, airbrushing, cleaning, gassing, melting, touching, finishing Group processes by combining components of the process, such as milling, cutting, deburring, extracting the material that has been dispensed into the frame with the radiation reaction solvent provided by the radiation. A process characterized by the creation of multidimensional functional objects. The multi-dimensional practical functional object according to claim 1, wherein:
Display, 3D display, Hikari field generator, lens, slot, figure, generator, operator, pattern generator, music player, which consists of a frame with a unit that makes Hikari the appropriate bright field Speaker, microphone, medicine, medicine package, circuit, integrated circuit, central processing unit, multiple processing units, hard drive, hard disk, nanostructured object, diode layer, nanotube, field matrix, field layer, toy, game, Soft, hard electrical product objective material, robot, nano robot, Nanoid, bio-chip, replication, DNA, RNA, DNA computer, quantum computer, gene sequence, code Process wherein the functional film is a group according to the component or combination thereof such as Yoshino time machine.

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