201007613 九、發明說明: 【發明所屬之技術領域】 本發明係關於一種360度3D環物互動#迪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
勒裝置,透過由3D 空間追縱器製成的虛擬放大鏡顯示面板可白山 日由放大縮小互 動旋轉座檯上的顯示面板所顯示的歷史器你+ " 7 <特徵細節,並 可透過互動旋轉座檯的投影晝面360度翻督应 没規賞歷史器物的環 物樣貌。 【先前技術】 以往在參觀古文物或是商品發表展示’―般都是以實體 展示,或是透過電腦與虛擬實境的表現方式以螢幕36〇度環 物顯示’由電腦勞幕與滑鼠作為主要互動方式然、而卻有以 下的缺點: 1.實體展示的古文物或是商品通常是放置在櫥窗内或是 展示櫃,無法U 360冑環物的方式看@各個角度的古 文物或是商品。 2·直接透過電腦與虛擬實境的表現方式以螢幕36〇度環 物顯不,部失去了從櫥窗内或是展示植觀賞實體的感 覺。 3.在觀賞的同時無法右所方& ., 有所互動,無法加深對實髏展示的 古文物或是商品的映像。 由此可見,上述習用太4'μ 為用万式仍有諸多缺失,實非一良善之 設計,而亟待加以改良。 5 201007613 * 本案發明人鑑於上述習用方式所衍生的各項缺點,乃亟 思加以改良創新,並經多年苦心孤詣潛心研究後,終於成功 研發完成本件360度3D環物互動裝置。 【發明内容】 ’ 本發明之目的即在於提供一種360度3D環物互動裝 置 了透過物體顯示裝置來模擬插窗或是展示概,並透過旋 轉座檯的方式’經由電腦模擬,可同步將物體顯示裝置所顯 φ 不之物品隨著旋轉座檯旋轉的度數跟一起著轉動。 本發明之次一目的即在於提供一種36〇度3d環物互動 裝置’透過3D感測器(3D-Tracker)整合於一可拿起之放大鏡 模擬裝置’藉由3D感測器計算放大鏡顯示面板到投影面板 之遠近距離’透過推近或拉遠模擬局部放大與縮小物體顯示 裝置所顯示的影像’可透過此一數位模擬放大鏡功能來微觀 360度3D環物影像。 參 達成上述發明目的之360度3D環物互動裝置,主要包 含固定座、旋轉木座、旋轉桌檯、投影裝置、3D感應接收 器、3D感應傳送器、3D感應控制器、旋轉位置感應器、放 大鏡模擬裳置與電腦,該旋轉木座設置在固定座内,並透過 轉盤相扣合,且該旋轉木座設有一位置感應器,係用來感測 旋轉的角度’該旋轉桌檯係扣合在旋轉木座上,並設有一折 射鏡面、投影面板及3D感應傳送器,該3D感應傳送器是讓 放大鏡模擬裝置之3D感應接收器感測目前的座標與距離, 201007613 k 並經由電腦計算,來判斷物體顯示裝置顯示的3D環物影像 需同步自轉之角度,該放大放大鏡模擬裝置設有一 3D感應 接收器’係感應目前與物體顯示裝置的座標距離,透過電腦 來計算’放大鏡模擬裝置之顯示面板需局部放大或是縮小影 ’像畫面’達到模擬放大鏡功能來微觀36〇度3D環物影像。 【實施方式】 請參閱圖一所示,係為本發明360度3E)環物互動裝置 ❿ 架構圖’係包括有一主體1及一放大鏡模擬裝置2 ;該主體 1更包含有: 一固疋座11,係為一圓柱凹槽,該凹槽内部壁面刻設有 刻度,係提供旋轉木座13之旋轉位置感應器131偵測旋轉 角度,又於其内部之底面設有一轉盤12及一旋轉木座13, 透過該轉盤12,即可使旋轉木座13自由轉動; —轉盤12,係呈一圓盤狀,設置於固定座u凹槽底部, ❹ 並與旋轉木座丨3相接合; 一旋轉桌檯14,係為一圓柱凹槽,並扣合於旋轉木座 13上,使二者能一起轉動;其凹槽内隱設有一 了^感應傳送 器141,係用來感測3D與放大鏡模擬裝置25之感應接 收器22的座標距離,該座標距離係以χ轴、γ軸及z軸數 值表示,並將感測數值傳送至3D感應控制器132,而該旋 轉桌檯14之表面設置有一影像折射鏡面142、—投影面板 M3,且在旋轉桌檯14之表面開設有—孔洞,此三者必須成 201007613 -一直線配置,以便當旋轉木座13内之投影装置投射影像時, 該影像能經由影像折射鏡面142投設至投影面板143上, 使用者在轉動旋轉座檯時’電腦133會將旋轉位置感應器 積測固定座11壁面之刻度轉動之數值,控制投影裝置所顯 ’示之影像自轉,其轉動角度與方向與使用者轉動旋轉座檯的 角度與方向一致; 一旋轉木座13,係為一圓柱凹槽,該凹槽内部容置了一 • 旋轉位置位置感應器131、一 3D感應控制器132、一電腦 133及一投影裝置134,該一 3D感應控制器132,該3D感 應控制器132係設定X軸、γ軸及z軸之起始座標,以及接 收3D感應傳送器141所傳送數值再傳至電腦133,該旋轉 位置位置感應器13 1係設置在圓柱外緣,並用來計算該旋轉 桌檯141所旋轉的角度數值,再將旋轉的角度數值傳送至電 腦U3 ’該電腦133包含一計算單元1331、一顯示模擬單元 1332以及一資料庫133,該電腦133接收到旋轉位置感應器 131及3D感應控制器丨32所傳輸之數值,當使用者在轉動 旋轉平檯時,透過計算單元1331即時運算,再由顯示模擬 單元1332模擬出投影裝置所顯示之物品畫面需同步自轉之 角度,並將畫面即時顯示出,其中該投影裝置134還可以是 電浆螢幕或液晶螢幕等各種顯示裝置;該計算單元1331還 會另計算3D感應控制器132所傳輸的與3D感應接收器m 201007613 •座標距離,座標距離係以x軸、y軸及z軸數值表示,以計 算出放大鏡模擬裝置2之顯示面板21需局部放大或縮小顯 示之影像,且與投影裝置134所顯示之物品畫面相同,當投 影裝置134所顯示之物品畫面旋轉時’會同步自轉,再由顯 ’不模擬單元1332模擬出放大鏡模擬裝置2之顯示面板21需 顯示之畫面,該資料庫1333係儲存該物品相關資料或題庫, 使用者可透過放大鏡模擬装置2之選擇單元23來選擇問答 • 或是了解該物品相關資料,而該旋轉木座13凹槽底部設有 一凸塊,係讓轉盤12插設於上,使其能自由轉動; 一放大鏡模擬裝置2,該放大鏡模擬裝置2包含一顯示 面板2卜一 3D感應接收器22及一選擇單元23,該3D感應 接收器22係偵測與3D感應傳送器141的位置及距離,並將 座標數值傳送至3D感應控制器132,再透過電腦133之計 算單元133 1運算,模擬出將要顯示之影像需局部放大或縮 ❹小’當放大鏡模擬裝置2與3D感應傳送器141之間距離被 使用者拉近或推遠時,顯示面板21的畫面會模擬放大鏡之 特性’透過3D感應接收器22來感測與3D感送傳送器141 的座標距離’並將數值傳送至3D感應控制器132,再透過 電腦133將需晝面傳輸至放大鏡模擬裝置2之顯示面板21 放大鏡模擬裝置之顯示面板所顯示之物品晝面,且與投影裝 置所顯示之物品畫面相同,當投影裝置所顯示之物品畫面旋 201007613 轉時’會同步自轉;該顯示面板21還可以顯示資料庫⑽ 所存儲的題目或該物品的相關資料,使用者再透過選擇單元 23選擇該問題的答其或選擇了解該物品的相關資料,盆電腦 =與放大鏡模擬裝置2傳輸的方式可以為有線傳輸、無線 藍芽傳輸或紅外線傳輸等傳輸方式。 請參閱圖二A、B所示,係為本發明36〇度3〇環物互 動裝置示意圖,投影面板143顯示電腦133所傳輸的物品影 像畫面,使用者轉動該旋轉桌檯14時,其投影面板143所 顯不之物品影像角度會自轉,當傳使用者將旋轉桌檯14轉 向另一方向時,其投影面板143所顯示之物品影像也會轉 向,並與使用旋轉該旋轉桌所轉動的角度相同(如圖二B所 示)’且投影面板143所顯示之物品自轉影像係與使用轉動該 旋轉桌做同步改變。 請參閱圖三A、B所示,係為本發明360度3D環物互 動裝置之放大鏡模擬裝置示意圖,當使用者拿起放大鏡模擬 裝置2,面對投影面板143所顯示之物品影像並觀看顯示面 板21所顯示之畫面,當使用者將放大鏡模擬裝置2推近投 影面板143時,放大鏡模擬裝置2之顯示面板21會對該顯 示畫面做局部放大模擬(如圖三A所示),當使用者將放大鏡 模擬裝置2拉遠與投影面板143間距離時,放大鏡模擬裝置 2之顯示面板21會對該顯示晝面做縮小模擬(如圖三B所 10 201007613 . 示),當使用者移動放大鏡模擬裝置2時,放大鏡模擬裝置2 之顯示面板21會對移動到對應的位置,顯示該位置影像局 部畫,且使用者轉動該旋轉桌檯14使投影面板143所顯示 之物品影像一起自轉,其放大鏡模擬裝置2之顯示面板21 ’也會與投影面板143所顯示之畫面同步轉動。 請參閱圖四所示,係為本發明360度3D環物互動裝置 之放大鏡模擬裝置之顯示物品資料流程圖,其步驟包括: φ 步驟1 :轉動旋轉桌檯; 步驟2 :透過放大鏡模擬裝置,尋找各微說明點; 步驟3 :電腦判斷是否找出所有特徵點,如果沒有則回到步驟2 ; 步驟4 :如果找到,放大鏡模擬裝置會顯示相關問題; 步驟5:透過選擇單元選擇回答相關問題; 步驟6 :電腦判斷是否完成所有問題,如果沒有則回到步驟5 ; 步驟7:如果完成所有問題,則會透過放大鏡顯示裝置詳細解說該物品 # 的相關資訊。 本發明所提供之360度3D環物互動裝置,與其他習用 技術相互比較時,具備下列優點: 1. 使用者可以用360度環物的方式看到各個角度的古 文物或是商品。 2. 透過虛擬實境的表現方式以螢幕360度環物顯示’ 可讓使用者在轉動旋轉桌檯時使得顯示的畫面同步 11 201007613 自轉,增加觀賞時的的真實感覺。 3·在觀賞的可以有所互動,可加深對實體展示的古文 物或是商品的映像。 上列詳細說明乃針對本發明之一個可行實施範例進行 ’具體說明,惟該範例並非用以限制本發明之專利範圍,凡未 脫離本發明技藝精神所為之等效實施或變更,均應包含於本 案之專利範圍中。 綜上所述’本案不僅於技術思想上確屬創新,並具備習 用之傳統方法所不及之上述多項功效,已充分符合新穎性及 進步性之法定發明專利要件,爰依法提出申讀,懇請貴局 核准本件發明專利申請案,以勵發明,至感德便。 【圖式簡單說明】 圖一為本發明360度3D環物互動裝置架構圖; 圖二Α、Β為本發明3 60度3D環物互動装置示意圖; 圖三Α、Β為本發明360度3D環物互動裝置之放大鏡 模擬裝置示意圖;以及 圖四為本發明360度3D環物互動裝置之放大鏡模擬裝 置之顯示物品資料流程圖。 【主要元件符號說明】 1 主體 11固定座 12 轉盤 12 201007613 - 13 旋轉木座 131 旋轉位置位置感應 132 3D感應控制器 133 電腦 •3 ’ 1331計算單元 1332顯示模擬單元 1333 資料庫 ❹ 134 投影裝置 14 旋轉桌檯 141 3D感應傳送器 142 影像折射鏡面 143 投影面板 2 放大鏡模擬裝置 21 顯示面板 ❹ 22 3D感應接收器 23 選擇單元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