TW201007613A - A 360 degree 3D linking interaction device - Google Patents

Abstract

This invention is a 360 degree 3D surrounding interaction device. It utilizes 3D surrounding animation to display each facet of a historical artifact; in addition, design a related interactive digital image to question content feedback as a creative learning material. Through the use of a virtual magnifying display panel that is made from a 3D space tracking device, a user can freely resize the detailed characteristics of a historic artifact being displayed on the display panel that is sitting on an interactive rotatable base. Moreover, observing the surrounding appearance of a historic artifact through a 360 degree projection display by the interactive rotatable base can allow for further the engagement of the historical background and characteristics of ancient artifacts. Besides applications found in museum collection display and education, this invention is also useful in merchandise development display type of activities. The interactive mode of operation provides a vivid and more realistic digital interactive display platform through the 360 degree 3D surrounding interactive device.

Description

201007613 IX. Description of the invention: [Technical field to which the invention pertains] The present invention relates to a 360 degree 3D ring interaction #迪

The device, through the virtual magnifying glass display panel made by the 3D space tracker, can be used to zoom in and out on the display panel displayed on the interactive rotating platform to display the + " 7 < feature details, and through interaction The 360 degree of the projection of the rotating platform should not have a look at the appearance of the historical objects. [Prior Art] In the past, when you visited ancient artifacts or merchandise, the exhibitions were displayed in the form of physical display, or through the display of computer and virtual reality, with a screen of 36 degrees. As the main method of interaction, it has the following shortcomings: 1. The ancient artifacts or goods displayed by the entity are usually placed in the window or in the display cabinet, and the U 360 胄 ring can not be seen in the way of the ancient artifacts of various angles. It is a commodity. 2. Directly through the computer and the virtual reality, the screen is displayed in a 36-degree circle, and the department loses the sense of seeing the entity from the window or displaying the plant. 3. While watching, you can't move to the right side & ., you can't deepen the image of the ancient artifacts or products displayed. It can be seen that the above-mentioned conventional use of 4'μ for the use of the 10,000-style still has many defects, which is not a good design, and needs to be improved. 5 201007613 * In view of the shortcomings derived from the above-mentioned conventional methods, the inventors of this case have made innovations and innovations, and after years of painstaking research, they have successfully developed and completed this 360-degree 3D ring interactive device. SUMMARY OF THE INVENTION The object of the present invention is to provide a 360-degree 3D ring interactive device that simulates inserting a window or displaying an image through an object display device, and by means of a computer simulation, can synchronize objects. The items displayed by the display device rotate together with the degree of rotation of the rotating platform. A second object of the present invention is to provide a 36-degree 3d loop interaction device 'integrated into a pick-up magnifier simulation device through a 3D-tracker'. The magnifying glass display panel is calculated by a 3D sensor. The distance to the projection panel 'by zooming in or out to simulate partial zooming in and out of the image displayed by the object display device' can be microscopic 360 degree 3D loop image through this digital analog magnifying glass function. The 360-degree 3D ring interaction device for achieving the above objects mainly includes a fixed seat, a rotating wooden seat, a rotating table, a projection device, a 3D inductive receiver, a 3D inductive transmitter, a 3D inductive controller, a rotational position sensor, The magnifying glass simulates the skirt and the computer, the rotating wooden seat is disposed in the fixed seat and is fastened through the turntable, and the rotating wooden seat is provided with a position sensor for sensing the angle of rotation 'the rotating table buckle It is mounted on a rotating wooden base and is provided with a refractor mirror, a projection panel and a 3D inductive transmitter. The 3D inductive transmitter allows the 3D inductive receiver of the magnifier to sense the current coordinates and distance, 201007613 k and is calculated by computer To determine the angle of the 3D ring image displayed by the object display device to be synchronized, the zoom magnifier simulation device is provided with a 3D sensor receiver to sense the coordinate distance between the current object and the object display device, and calculate the 'magnifying glass simulation device through the computer. The display panel needs to be partially enlarged or reduced to reduce the image 'image picture' to achieve the analog magnifying glass function to microscopic 36-degree 3D ring image[Embodiment] Please refer to FIG. 1 , which is a 360 degree 3E) ring interaction device of the present invention. The structure diagram includes a main body 1 and a magnifying glass simulation device 2; the main body 1 further includes: a solid seat 11, is a cylindrical groove, the inner wall of the groove is engraved with a scale, the rotation position sensor 131 of the rotating wooden seat 13 is provided to detect the rotation angle, and a turntable 12 and a rotating wood are arranged on the inner bottom surface thereof. The seat 13, through the turntable 12, the rotating wooden seat 13 can be freely rotated; the turntable 12 is in the form of a disk, is disposed at the bottom of the fixed seat u groove, and is engaged with the rotating wooden seat 3; The rotating table 14 is a cylindrical recess and is fastened to the rotating wooden base 13 so that the two can rotate together; a sensing conveyor 141 is embedded in the recess for sensing 3D and The coordinate distance of the inductive receiver 22 of the magnifying glass simulation device 25, which is represented by the x-axis, the gamma axis, and the z-axis value, and transmits the sensed value to the 3D inductive controller 132, and the surface of the rotating table 14 An image refraction mirror 142, a projection panel M3, is disposed The surface of the table 14 is provided with a hole, which must be configured as a 201007613-straight line, so that when the projection device in the rotating wooden seat 13 projects an image, the image can be projected onto the projection panel 143 via the image refraction mirror 142. When the user rotates the rotary table, the computer 133 will rotate the position sensor to measure the value of the scale of the wall of the fixed seat 11 to control the rotation of the image displayed by the projection device, and the rotation angle and direction of the user rotate. The angle of the platform is the same as the direction; a rotating wooden base 13 is a cylindrical groove, and the inside of the groove is accommodated by a rotating position sensor 131, a 3D sensing controller 132, a computer 133 and a projection The device 134, the 3D inductive controller 132 sets the initial coordinates of the X-axis, the γ-axis, and the z-axis, and receives the value transmitted by the 3D inductive transmitter 141 and transmits the value to the computer 133. The position and position sensor 13 1 is disposed on the outer edge of the cylinder, and is used to calculate the angle value of the rotation of the rotary table 141, and then transmits the angle value of the rotation to the computer U3 'The computer 133 The computer 133 receives the values transmitted by the rotational position sensor 131 and the 3D sensing controller 丨32, and the user transmits the value transmitted by the rotating position sensor 131 and the 3D sensing controller 丨32. The computing unit 1331 performs an instant operation, and the display simulation unit 1332 simulates the angle of the object display displayed by the projection device to be synchronously rotated, and displays the image in real time. The projection device 134 can also be a plasma screen or a liquid crystal screen. The display unit 1331 further calculates the coordinate distance transmitted by the 3D inductive controller 132 and the 3D inductive receiver m 201007613, and the coordinate distance is represented by x-axis, y-axis and z-axis values to calculate the magnifying glass simulation. The display panel 21 of the device 2 needs to partially enlarge or reduce the displayed image, and is the same as the image displayed by the projection device 134. When the image displayed by the projection device 134 is rotated, it will rotate synchronously, and then display the non-simulation unit. 1332 simulates a screen to be displayed on the display panel 21 of the magnifying glass simulation device 2, and the database 1333 stores the related items. For the material or the question bank, the user can select the question and answer through the selection unit 23 of the magnifying glass simulation device 2 or know the relevant information of the item, and the bottom of the groove of the rotating wooden seat 13 is provided with a bump for inserting the turntable 12 on the , the magnifying glass simulation device 2 includes a display panel 2, a 3D inductive receiver 22 and a selection unit 23, the 3D inductive receiver 22 is a detection and 3D inductive transmitter The position and distance of the 141, and the coordinate value is transmitted to the 3D sensing controller 132, and then calculated by the computing unit 133 1 of the computer 133, simulating that the image to be displayed needs to be partially enlarged or reduced. When the magnifying glass simulation device 2 and 3D When the distance between the inductive transmitters 141 is zoomed in or out by the user, the screen of the display panel 21 simulates the characteristics of the magnifying glass 'sense the distance from the 3D inductive transmitter 141 through the 3D inductive receiver 22' and The value is transmitted to the 3D inductive controller 132, and then transmitted through the computer 133 to the display panel of the magnifying glass simulation device 2, and the display panel displayed on the display panel of the magnifying glass simulation device And the same as the item screen displayed by the projection device, when the image displayed by the projection device rotates 201007613, it will rotate synchronously; the display panel 21 can also display the title stored in the database (10) or related information of the item. The user then selects the answer to the question or selects the relevant information of the item through the selection unit 23, and the mode of the tablet computer=and the magnifying glass simulation device 2 can be a transmission mode such as wired transmission, wireless Bluetooth transmission or infrared transmission. Please refer to FIG. 2A and FIG. B, which are schematic diagrams of the 36-degree 3〇 ring interaction device of the present invention. The projection panel 143 displays an image of the object transmitted by the computer 133. When the user rotates the rotating table 14, the projection thereof is shown. The image angle of the item displayed on the panel 143 is rotated. When the user turns the rotating table 14 to the other direction, the image of the item displayed on the projection panel 143 is also turned and rotated by using the rotating table. The angles are the same (as shown in FIG. 2B) and the object rotation image displayed by the projection panel 143 is changed synchronously with the rotation of the rotating table. Please refer to FIG. 3A and FIG.B, which are schematic diagrams of the magnifying glass simulation device of the 360 degree 3D ring interactive device of the present invention. When the user picks up the magnifying glass simulation device 2, faces the image displayed by the projection panel 143 and views the display. The screen displayed by the panel 21, when the user pushes the magnifying glass simulation device 2 closer to the projection panel 143, the display panel 21 of the magnifying glass simulation device 2 performs partial amplification simulation on the display screen (as shown in FIG. 3A) when used. When the distance between the magnifying glass simulation device 2 and the projection panel 143 is extended, the display panel 21 of the magnifying glass simulation device 2 performs a reduction simulation on the display surface (as shown in FIG. 3B 10 201007613), when the user moves the magnifying glass. When the device 2 is simulated, the display panel 21 of the magnifier simulation device 2 moves to a corresponding position, and the position image is partially displayed, and the user rotates the rotary table 14 to rotate the image of the object displayed by the projection panel 143. The display panel 21' of the magnifying glass simulation device 2 also rotates in synchronization with the screen displayed by the projection panel 143. Please refer to FIG. 4 , which is a flow chart of displaying items of the magnifying glass simulation device of the 360 degree 3D ring interactive device of the present invention, and the steps thereof include: φ Step 1: Rotating the rotating table; Step 2: through the magnifying glass simulation device, Look for each micro-description point; Step 3: The computer judges whether to find all the feature points, if not, then returns to step 2; Step 4: If found, the magnifying glass simulation device will display related questions; Step 5: Answer the relevant questions through the selection unit selection Step 6: The computer judges whether all the questions are completed. If not, return to step 5; Step 7: If all the questions are completed, the information about the item # will be explained in detail through the magnifying glass display device. The 360 degree 3D loop interaction device provided by the invention has the following advantages when compared with other conventional technologies: 1. The user can see the ancient artifacts or commodities of various angles by means of a 360 degree ring. 2. Displaying the 360 degree ring through the virtual reality representation allows the user to synchronize the displayed picture while rotating the table. 11 201007613 Rotate to increase the true feeling of viewing. 3. The interactive viewing can deepen the image of ancient artifacts or merchandise displayed on the entity. The detailed description above is intended to be a detailed description of a possible embodiment of the present invention, and is not intended to limit the scope of the invention. The patent scope of this case. To sum up, 'this case is not only innovative in terms of technical thinking, but also has many of the above-mentioned functions that are not in the traditional methods of the past. It has fully complied with the statutory invention patent requirements of novelty and progressiveness, and submitted the application according to law. The bureau approved the application for the invention patent, in order to invent the invention, to the sense of virtue. BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a structural diagram of a 360-degree 3D loop interactive device according to the present invention; FIG. 2 is a schematic diagram of a 3 60-degree 3D loop interactive device according to the present invention; FIG. 3Α, Β is a 360-degree 3D of the present invention. A schematic diagram of a magnifying glass simulation device of the ring interaction device; and FIG. 4 is a flow chart of displaying the article data of the magnifying glass simulation device of the 360 degree 3D ring interaction device of the present invention. [Main component symbol description] 1 Main body 11 fixing base 12 Turntable 12 201007613 - 13 Rotating wooden base 131 Rotary position position sensing 132 3D sensing controller 133 Computer • 3 ' 1331 calculation unit 1332 display simulation unit 1333 Database 134 Projection device 14 Rotating table 141 3D inductive transmitter 142 Image refractor 143 Projection panel 2 Magnifier simulator 21 Display panel ❹ 22 3D sensor receiver 23 Select unit

Claims (1)

201007613 X. Patent application scope: 1. A 360-degree 3D ring interaction device, which mainly includes: - the fixing seat is a cylindrical groove, and the inner wall of the groove is engraved with a scale, which provides a rotational position sensing rotation angle' Further, on the inner bottom surface thereof, there is a turntable and a rotating wood seat, through which the rotating wooden seat can be freely rotated; - the rotating table is invisible with a -3D inductive transmitter for sensing 3座 and the coordinate distance of the 3D inductive receiver of the magnifying glass simulation device, and transmit the sensing value to the 3D inductive controller, and the surface of the rotating table is provided with an image refraction mirror surface and a projection panel, when the user is rotating the rotating seat During the stage, the computer will detect the value of the rotation of the fixed seat wall surface by the rotary position sensor, and control the image rotation of the projection panel displayed by the projection device. The angle and direction of rotation and the angle of the user rotating the table are Direction-oriented; a rotating wooden base contains a rotating position sensor, a 3D sensing controller, a computer and a projection device, the 3D sensing control The 3D sensing controller sets the starting coordinate 'and receives the value transmitted by the 3D inductive transmitter and transmits it to the computer. The rotating position sensor is used to calculate the angle value of the rotating table, and then rotates. The angle value is transmitted to the computer. The computer includes a computing unit, a display analog unit, and a database. The computer receives the value transmitted by the rotary position sensor and the 3D sensing controller when the user rotates the rotating platform. Through the calculation unit, the real-time operation is performed, and then the display simulation unit simulates that the image displayed by the projection device needs to be synchronized and rotated, and the surface is displayed immediately; the calculation unit further calculates the 3D transmitted by the 3D sensor controller. Inductive receiver coordinate distance, and calculate the image of the magnifying glass simulation device to be partially enlarged or reduced, simulated by the display simulation unit, and then transferred to the display panel of the magnifying glass simulation device, 14 201007613 The database is stored The item related information or question bank, the user can use the magnifying glass simulation device To select a question or answer or to know the relevant information of the item; a magnifying glass simulation device, the magnifying glass simulation device comprises a display panel, a 3D inductive receiver and a selection unit, wherein the 3D inductive receiver detects the position of the 3D inductive transmitter And the distance 'transmits the coordinate value to the 3D sensor controller, and then through the computer's calculation unit operation' simulates that the image to be displayed needs to be partially enlarged or reduced; the display panel can also display the title stored in the database or the item Relevant information, the user then selects the answer to the question through the selection unit or chooses to know the relevant information of the item. 2. The 360 degree 3D loop interactive device according to claim 1, wherein the 3D sensing controller sets the starting coordinates, which are represented by X-axis, Y-axis and Z-axis values. 3. The 360 degree 3D loop interaction device according to claim 1, wherein the coordinate distance between the sensing 3D and the 3D inductive receiver of the magnifying glass simulation device is represented by an X-axis, a γ-axis, and a z-axis numerical value. . 4. The 36-degree 3 inch loop interactive device as described in claim i, wherein the display screen of the display panel of the magnifying glass simulation device is the same as the object displayed by the projection device, when the projection is ^ When the item displayed on the device rotates, it will rotate synchronously. For example, the 36-degree circumstance interaction device described in claim i can also be a display device such as a plasma screen or a liquid crystal screen. 6. The 36-degree circumstance interaction device as described in claim 1 of the patent application scope, wherein the magnifying glass simulates the age of the φ plate of the slab, and the money is magnified by the magnifying device and the age display device. The money is placed close to or mixed, and the coordinate screen of the display panel's 15 201007613 3D transmitter simulates the characteristics of the magnifying glass, sensing and distance through the inductive receiver' and transmitting the value to the 3D sensor #希丨输To the display panel sensor controller, and then through the computer to display the screen to be displayed, the 36 () degree 31) ring interaction device described in the sixth paragraph of the patent, the computer and the magnifying glass simulation equipment wheel or infrared Transmission methods such as transmission. 8. If the magnifying glass simulation device can display the item related information in the 所述 申请 申请 申请 , , , , , 四 四 四 四 放大镜 放大镜 放大镜 放大镜 放大镜 放大镜 放大镜 放大镜 放大镜 放大镜 放大镜 放大镜 放大镜 放大镜 放大镜 放大镜 放大镜 放大镜 放大镜 放大镜 放大镜 放大镜 放大镜 放大镜 放大镜 放大镜 放大镜 放大镜If not, then look for each micro-description point. If found, the magnifying glass display device will display related questions. The user selects the relevant question through the selection unit, and then the computer judges whether to complete all the questions, then waits for the user to select, if all is completed, The problem will be explained in detail through the magnifying glass display device*.