1283382 九、發明說明: 【發明所屬之技術領域】 本發明係關於-種柱狀顯示屏幕,尤 發光單元交錯設置而具有高解析度之柱狀顯示Γ幕將 【先前技術】 光單看板,多係—平面而均勻分佈設置有發 面型顯示屏幕其視一 杲二角度内,故其於設置時即必須考量f :之視覺觀察方向,錢達到最狀廣告 角产::!將顯示屏幕改良為柱狀鲁 角度下皆得觀察_顯示晝面之内容。 了 然而習知柱狀屏幕之屏幕面積係較平 ===亮度、壽命長之發光二極體(‘ 顯U本將相當可觀。故後來進—步有於該 發I單元===,陣列,透過各該發光陣列中 正面之顯不畫面。丽述顯示屏幕中 面貝:1不畫面之發光卩㈣’係設置於旋轉賴之側壁表 可搭配不關色LED之發絲其排顺合,於旋 轉載體凝轉時產生混光而顯示出具各種色彩之晝面。 則述顯不畫面之解析度,在先天硬體之配置上即有其 龜」杳故在白知技術中並無法有效提升。其原因在於:該 .'不旦面在X軸方向上之解析度,雖可利用編譯器 ^283382 (encoder)以及軟體控制,使於發光單元旋轉時呈現出 〇.1 mm以下之細緻解析度,但在γ轴方向之解析度上, 則因LED顆粒間之設置,必然存在有—定距離之=隙, 故無法達到車交高之解析纟。以體積較小之表面黏著型 ' (8應)1^1)為例’其尺寸約為3 111111長與2 111111寬’加 上各LED間接線設置所f之如,其解析度並不易達到4 mm以下,故在γ軸方向上所呈現出之晝面即較為粗糙, _ 而無法顯示出高解析度、高清晰度之高品質晝面。 . 【發明内容】 • 為改善習知發光單元硬體上之設置限制,使提升所能 ‘ 呈現之影像解析度,本發明將提供一種將發光單元交錯設 • 置之柱狀顯示屏幕,藉由發光單元交錯之設置,使於旋轉 時透過視覺暫留之作用,相互彌補發光單元間之發光空 隙,而顯現出一咼解析度之高品質晝面。 • 本發明之高解析度柱狀顯示屏幕,包括一底座、一旋 轉載體以及一控制單元,該旋轉載體上間隔設置有複數組 發光陣列,各该發光陣列並設有至少一列之發光單元,其 特徵在於:各該發光陣列所設之複數個發光單元與相鄰發 光陣列所設之發光單元間係交錯設置。該發光單元可為 LED或螢光燈(fluorescent tube),但並不僅限於此。各該 發光陣列可設有一列LED發光單元,各led可發射出藍 光、紅光與綠光,但並不僅限於此。各該發光陣列亦可設 有三列並排之LED發光單元,而各列之發光單元分別可 6 • 1283382 、出i光紅光與綠光。本發明中,發光單元列數並未 有特別的限制,而各列發光單元間所交錯之距離亦未有限 制,其可為二發光單元間距之二分之一、三分之一、四分 之一或其他比例之間距。 、此外,本發明亦提供另一種發光單元之交錯設置方 式其中,该旋轉載體上設置至少有一發光陣列,各該發 光陣列設有至少二列之發光單元,而各該發光陣列中之各 _ 5亥列發光單元與相鄰列之發光單元間係交錯設置。另一方 面’各該發光陣列所設之發光單元亦可進一步與相鄰發光 . 車歹】所°又之發光單元相父錯設置。各發光單元可如前述單 、 獨發射出藍光、紅光與綠光,或其他色光,亦可設置有三 ‘ 列發光單元,而各列發光單元分別可發射出藍光、紅光與 • 綠光,但並未僅限於此。. 藉由前述各列發光單元間之各種交錯設置,當其進行 旋轉後,即可透過視覺暫留之作用,產生相互交疊之影 • 像,使各發光單元間相互彌補其間之間隙,而能將原本發 光單元硬體上設置之限制,經由旋轉後之視覺暫留現象, 使改善Y軸方向上解析度不足之缺點,而形成一高解析度 • 之影像晝面。 以下將配合圖式進一步說明本發明的實施方式,下述 所列舉的實施例係用以闡明本發明,並非用以限定本發明 之範圍,任何熟習此技藝者,在不脫離本發明之精神和範 圍内,當可做些許更動與潤飾,因此本發明之保護範圍去 視後附之申請專利範圍所界定者為準。 田 1283382 【實施方式】 請參閱第-圖,該圖係本發明高解析度柱狀顯示屏幕 之外觀不意圖。本發明之高解析度柱狀顯示屏幕,包括一 底座10、-旋轉載體20與-控制單元(圖中未示)。旋轉 載體20係設置該底座1〇上,並得進行旋轉,於其旋轉同 ,’旋轉載體20表面所設之發光陣列組21,得藉由控制 單元之控做預定時間触置上發光,並_視覺暫留之 作用,形成一整面之顯示晝面。 請繼續參閱第一圖,發光陣列組21包括由數個間隔 設置之第-發光陣列2H、第二發光陣列212、第三發光 陣列犯鮮四發光陣列214等所組成(本實施例中僅列 舉其中部分作說明)。各發光陣列係分別設置於—基板別 上,各该基板201再裝設於旋轉載體2〇之環狀表面上。 母-發光_於本實闕巾係由數個LED縱向排列所組 成,該LED可為接腳型(lamp)或黏著型led,且苴可 為發^單色光者,例如藍光、紅光、綠光或白叙咖, 或是單顆LED即可發射出藍光、紅光與綠光型式的咖。 $述LED之㈤式或其色光並未有特別的限制,可依所欲 呈現之畫面型式加以選擇,而該發光單元亦可為螢光燈, 但並不僅限於此。 清爹閱第二A圖,該圖係本發明實施例中發光單元之 设置不意圖。於本實施例中,各發光陣列所設之各發光單 元210間之距離係間距X。第一發光陣列211與第二發光 陣列212所設發光單元21〇之位置係相交錯二分之一間距 8 12833¾ x。第三發光陣列213與第二發光陣列212以及第四發光 陣列214亦相交錯二分之一間距χ。 /請參閱第二Β圖,該圖係本發明實施例發光陣列旋轉 後發光单疋呈現位置之示意圖。藉由前述發光單元21〇交 錯之設置,各發光陣列與相鄰之發光陣列(例如第一發光 陣列211與第二發光陣列212),將因視覺暫留所致,形成 如圖式中相鄰兩列發光單元相交錯之畫面顯示,其於原發 I t早7G無法設置之間隙處形成視覺暫留之發総,可彌補 原硬體設置上之不足,而提高γ轴方向上之解析度。 請參閱第三Α圖,該圖係本發明第二實施例之示意 、 圖。除前述兩相鄰發光陣列之發光單元交錯以二分之一^ 距X設置外,兩相鄰發光陣列之發光單元亦可交錯以三分 之一間距X設置。故於本實施例中,第一發光陣列221與 第二發光陣列222所設發光單元220之位置係相交錯三分 之一間距X,第二發光陣列222再與第三發光陣列223交 _ 錯以三分之一間距X設置。第四發光陣列224、第五發光 陣列225與第六發光陣列226再如前述循環交錯設置:1283382 IX. Description of the invention: [Technical field of the invention] The present invention relates to a columnar display screen, in particular, a columnar display curtain with high-resolution interleaved arrangement and high resolution will be [previously] light single board, more The system is flat and evenly distributed. There is a face-type display screen that is within one or two angles. Therefore, it must be considered when viewing: f: the visual observation direction, the money reaches the most advert angle::! For the columnar Lu angle, you have to observe _ to display the contents of the face. However, the screen area of the conventional columnar screen is flat ===luminous, long-lived LEDs ('Using U will be considerable. So later, the step is in the I unit ===, array, through The display of the front side of each of the light-emitting arrays is displayed. The surface of the display screen is: the light of the screen (1) is set on the side wall of the rotary screen, and the hairline of the LED can be matched with the hair of the LED without the color. When the rotating carrier condenses, it produces a mixture of light and displays a variety of colors. The resolution of the screen is not the same as that of the innate hardware. Therefore, it cannot be effectively improved in Baizhi technology. The reason for this is that the resolution of the X-axis in the X-axis direction can be controlled by the compiler ^283382 (encoder) and software, so that the fine resolution of 〇.1 mm or less is exhibited when the light-emitting unit is rotated. However, in the resolution of the γ-axis direction, due to the setting between the LED particles, there must be a fixed distance = gap, so the analysis of the intersection height can not be achieved. The surface adhesion type with a small volume ' (8 Should be 1^1) as an example 'its size is about 3 111111 long and 2 111111 wide 'With the connection between the LEDs, the resolution is not easy to reach 4 mm or less, so the surface in the γ-axis direction is rough, _ and cannot show high resolution, high definition. High quality quality. SUMMARY OF THE INVENTION The present invention provides a columnar display screen in which light-emitting units are alternately arranged, in order to improve the setting constraints on the conventional light-emitting unit hardware, so as to enhance the image resolution that can be presented. The arrangement of the light-emitting units is staggered so as to compensate for the light-emitting gap between the light-emitting units by the effect of persistence of the vision during the rotation, thereby exhibiting a high-quality surface with a resolution. The high-resolution columnar display screen of the present invention comprises a base, a rotating carrier and a control unit. The rotating carrier is spaced apart from the array of light-emitting arrays, and each of the light-emitting arrays is provided with at least one column of light-emitting units. The method is characterized in that: a plurality of light-emitting units provided in each of the light-emitting arrays are alternately arranged with light-emitting units provided in adjacent light-emitting arrays. The light emitting unit may be an LED or a fluorescent tube, but is not limited thereto. Each of the light-emitting arrays may be provided with a column of LED light-emitting units, and each of the LEDs may emit blue light, red light and green light, but is not limited thereto. Each of the light-emitting arrays may also be provided with three rows of LED light-emitting units arranged side by side, and the light-emitting units of each column may respectively be 6 • 1283382, and emit red light and green light. In the present invention, the number of rows of the light-emitting units is not particularly limited, and the distance between the columns of the light-emitting units is not limited, and may be one-half, one-third, four-minutes of the distance between the two light-emitting units. One or the other ratio between the ratios. In addition, the present invention also provides another staggered arrangement of the light emitting units, wherein the rotating carrier is provided with at least one light emitting array, and each of the light emitting arrays is provided with at least two rows of light emitting units, and each of the light emitting arrays is _ 5 The illuminating unit is arranged alternately with the illuminating unit of the adjacent column. On the other hand, the light-emitting units provided in each of the light-emitting arrays may be further arranged in a wrong manner with the adjacent light-emitting units. Each of the light-emitting units may emit blue light, red light, and green light, or other color light as described above, or may be provided with three-column light-emitting units, and each of the light-emitting units may emit blue light, red light, and green light, respectively. But it is not limited to this. By the various staggered arrangement between the above-mentioned columns of light-emitting units, when they are rotated, the images can be overlapped by the effect of the persistence of the vision, so that the light-emitting units can compensate each other for the gap therebetween. The limitation of the original light-emitting unit can be set on the hard surface, and the phenomenon of insufficient resolution in the Y-axis direction can be improved by the phenomenon of persistence of vision after the rotation, thereby forming a high-resolution image. The embodiments of the present invention are further described in the following description, and the embodiments of the present invention are set forth to illustrate the present invention, and are not intended to limit the scope of the present invention. In the scope of the invention, the scope of protection of the invention is defined by the scope of the appended claims. Field 1283382 [Embodiment] Please refer to the first drawing, which is a schematic view of the appearance of the high-resolution columnar display screen of the present invention. The high resolution columnar display screen of the present invention comprises a base 10, a rotating carrier 20 and a control unit (not shown). The rotating carrier 20 is disposed on the base 1 and rotates, and rotates the same, and the light-emitting array group 21 disposed on the surface of the rotating carrier 20 is controlled by the control unit to make a predetermined time to touch the upper light, and _ Vision persistence, forming a full face display. Continuing to refer to the first figure, the illuminating array group 21 includes a plurality of spaced-apart photo-emissive arrays 2H, a second illuminating array 212, a third illuminating array illuminating four-light-emitting array 214, and the like (only enumerated in this embodiment) Some of them are explained). Each of the light-emitting arrays is disposed on the other substrate, and each of the substrates 201 is further mounted on the annular surface of the rotating carrier 2〇. The mother-lighting _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ , green or white coffee, or a single LED can emit blue, red and green light coffee. The LED (5) or its color light is not particularly limited, and may be selected according to the type of picture to be presented, and the light unit may be a fluorescent lamp, but is not limited thereto. The second drawing is shown in Fig. 2, which is a schematic arrangement of the lighting unit in the embodiment of the present invention. In this embodiment, the distance between each of the light-emitting units 210 provided in each of the light-emitting arrays is a pitch X. The position of the first light-emitting array 211 and the light-emitting unit 21 of the second light-emitting array 212 are staggered by a distance of one-eighths of a distance of 128 128 ⁄4 x. The third light emitting array 213 is also interlaced with the second light emitting array 212 and the fourth light emitting array 214 by a half pitch χ. / Please refer to the second diagram, which is a schematic diagram showing the position of the illumination unit after the rotation of the illumination array in the embodiment of the present invention. By the arrangement of the foregoing illuminating unit 21, each illuminating array and the adjacent illuminating array (for example, the first illuminating array 211 and the second illuminating array 212) will be formed by the persistence of vision, and formed adjacent to each other in the figure. The two columns of light-emitting units are interlaced and displayed, which form a telescopic stoppage at the gap where the original I t can not be set 7G early, which can make up for the deficiency of the original hardware setting and improve the resolution in the γ-axis direction. . Please refer to the third drawing, which is a schematic view of a second embodiment of the present invention. The light-emitting units of the two adjacent light-emitting arrays may be staggered by a one-third pitch X, except that the light-emitting units of the two adjacent light-emitting arrays are staggered by one-half distance X. Therefore, in the embodiment, the positions of the first light-emitting array 221 and the second light-emitting array 222 are staggered by a third of the distance X, and the second light-emitting array 222 is further connected to the third light-emitting array 223. Set at one-third spacing X. The fourth illuminating array 224, the fifth illuminating array 225 and the sixth illuminating array 226 are further arranged in a loop as described above:
明參閱弟二B圖,該圖係本發明第二實施例發光陣列 旋轉後發光單元呈現位置之示意圖。藉由前述發光單元 220交錯之設置,第一發光陣列221、第二發光陣列222 與第三發光陣列223間,將因視覺暫留所致,形成如圖式 中相鄰三列發光單元相交錯之畫面顯示,其於原發光單元 無法設置之間隙處形成視覺暫留之發光點,且同時加入二 發光點,可強化原硬體設置上之不足,而更進一步提高Y 9 1283382 ^方向上之解析度。因此,為達成不同解析度之要求,相 ^發^陣關其魏單元所交錯之距離並未有特別的 二J ’,、可進-步交錯有四分之—mix,或甚至五分之 間距X以下各種比例之間距。 A清參閱第四圖’該圖係本發明第三實施例之示意圖。 別述實施例,係以發光單元產生單色或可同時產生藍光、 紅光與綠仅LED為例。本實關巾,_於—發光陣Referring to FIG. 2B, the figure is a schematic diagram showing the position of the light-emitting unit after the rotation of the light-emitting array according to the second embodiment of the present invention. By the arrangement of the foregoing light-emitting units 220, the first light-emitting array 221, the second light-emitting array 222 and the third light-emitting array 223 will be interlaced by adjacent three rows of light-emitting units in the figure due to persistence of vision. The picture shows that the light-emitting point of the visual persistence is formed at the gap where the original light-emitting unit cannot be set, and the two light-emitting points are added at the same time, which can strengthen the shortage of the original hardware setting, and further improve the direction of the Y 9 1283382 ^ Resolution. Therefore, in order to achieve the requirements of different resolutions, there is no special two-J's in the distance between the Wei and the Wei units, and there are four points in the advance-interleaving-mix, or even five-points. The distance between the various ratios below the spacing X. A clear reference to the fourth figure' is a schematic view of a third embodiment of the present invention. The embodiments are described in which the light-emitting unit generates a single color or can simultaneously generate blue light, red light, and green only LED. The actual closed towel, _--lighting array
列中設置有三列並排之發光單元23G,各列發光單元23〇 則刀別可發射出監光、紅光與綠光。於本實施例中,第一 發光陣列231與第二發光陣列232所設發光單元no之位 置係相交錯二分之-間距X。第三發光陣列233與第二發 光陣列232以及第四發光陣列234亦相交錯二分之一間距 X。藉此設置,即可如前述於原發料元無法設置之間隙Three columns of side-by-side light-emitting units 23G are arranged in the column, and each row of light-emitting units 23A can emit light, red light and green light. In this embodiment, the positions of the first light-emitting array 231 and the light-emitting unit no provided by the second light-emitting array 232 are staggered by a distance - two. The third illumination array 233 and the second illumination array 232 and the fourth illumination array 234 are also interlaced by a half pitch X. With this setting, it can be as described above in the gap where the original material element cannot be set.
處形成視覺暫留之發光點,並透過三色之混光呈現所需顏 色之色光。 A 請參閱第五圖,該圖係本發明第四實施例之示意圖。 除前述實施例於相鄰發光陣列設置以交錯位置之發光單 元外,各發光陣列中所設數列之發光單元亦可相交錯設 置,此時,所設之發光陣列數亦可僅設有一組。本實施例 中,相鄰第一發光陣列241間發光單元24〇雖未交錯設 置,但同一第一發光陣列241内之基列發光陣列2411與 鄰列發光陣列2412則係交錯以二分之一間距X設置。依 此5又置,亦可產生如前述影像交疊於同一列之效果。發光 單元240係產生單色或可產生藍光、紅光與綠光iLED, 10 1283382 但並不僅限於此。 請參閱第六圖’該圖係本發明第五實施例之示意圖。 本實施例與第四實施例相仿,相鄰之第—發光陣列251間 所設發光單元250並未交錯設置侧—第―發光陣列251 内,設有三列並排發光單元25〇之基列發光陣列25ΐι則 與同樣設置有三列並排發光單元25G之鄰列發光陣列 2412’以二分之-間距乂相交錯設置,而同樣達到增加解The light-emitting point of the visual persistence is formed, and the color of the desired color is displayed through the mixed light of the three colors. A Please refer to the fifth figure, which is a schematic view of a fourth embodiment of the present invention. In addition to the foregoing embodiments, the light-emitting units arranged in the arrays of the adjacent light-emitting arrays may be alternately arranged in a plurality of rows. In this case, the number of light-emitting arrays may be set to be only one set. In this embodiment, although the light-emitting units 24 相邻 between adjacent first light-emitting arrays 241 are not staggered, the base-column light-emitting array 2411 and the adjacent-column light-emitting array 2412 in the same first light-emitting array 241 are interlaced by one-half. Spacing X setting. According to this, the effect of overlapping the images in the same column as above is also generated. Illumination unit 240 produces monochromatic or blue, red and green iLEDs, 10 1283382 but is not limited thereto. Please refer to the sixth drawing, which is a schematic view of a fifth embodiment of the present invention. This embodiment is similar to the fourth embodiment. The light-emitting units 250 disposed between the adjacent first-light-emitting arrays 251 are not disposed in the side-first light-emitting array 251, and are provided with three columns of side-by-side light-emitting units 25? 25ΐι is arranged in parallel with the adjacent column light-emitting array 2412' of the three rows of side-by-side light-emitting units 25G, and the same solution is achieved.
^度^效果。如前所述’同—發光陣列中所設相鄰列發光 單元交錯之距離亦未有特別的_,可依所欲呈現之 磨加以調签。^degree^ effect. As described above, there is no special distance between the adjacent column light-emitting units provided in the same-light-emitting array, and the label can be adjusted according to the desired grinding.
十知η合乃贫光早元可於相鄰發光陣列間或同 -發光陣列中交錯設置,或同時於相鄰與同—發光陣列中 父錯设置,藉以達成最佳解析度之晝面呈現。另一方面, 為使各發光單摘糾之色歧騎晰,可於各發光單元 所設置之基板加上(請參閱第—圖或第二圖)塗佈有深 色塗料’增加晝面的對比,使呈現之晝面更為明亮、清晰。 【圖式簡單說明】 第-圖係本發明高解析度柱狀顯科幕之外觀示意圖。 第二Α圖係本發明實施例中發光單元之設置示意圖。 第二B圖係本發明實施例發光__後發光單元里現位 置之示意圖。 第三A圖係本發明第二實施例之示意圖。 11 1283382 第三B圖係本發明第二實施例發光陣列旋轉後發光單元呈 現位置之示意圖。 第四圖係本發明第三實施例之示意圖。 第五圖係本發明第四實施例之示意圖。 第六圖係本發明第五實施例之示意圖。 【主要元件符號說明】 • 10 底座 20 旋轉載體 201 基板 ' 21 發光陣列組 210、 220、230、240、250 發光單元 211、 221、231、241、251 第一發光陣列 212、 222、232 第二發光陣列 • 213、223、233 第三發光陣列 214、224、234 第四發光陣列 225 第五發光陣列 226 第六發光陣列 2411、 2511基列發光陣列 2412、 2512鄰列發光陣列 X 間距The tenth η 乃 乃 乃 早 早 可 可 可 可 可 可 可 可 可 可 可 可 可 可 可 可 可 可 可 可 可 可 可 可 贫 贫 贫 贫 贫 贫 贫 贫 贫 贫 贫 贫 贫 贫 贫 贫. On the other hand, in order to make the color of each illuminating unit clear, it can be applied to the substrate provided by each illuminating unit (see the first or second figure) coated with dark paint to increase the surface. Contrast, making the face of the presentation brighter and clearer. BRIEF DESCRIPTION OF THE DRAWINGS The first figure is a schematic view of the appearance of the high-resolution columnar display screen of the present invention. The second diagram is a schematic diagram of the arrangement of the light emitting unit in the embodiment of the present invention. The second B diagram is a schematic diagram of the current position in the illumination unit of the embodiment of the present invention. The third A is a schematic view of a second embodiment of the present invention. 11 1283382 The third B is a schematic diagram showing the position of the light-emitting unit after the rotation of the light-emitting array according to the second embodiment of the present invention. The fourth figure is a schematic view of a third embodiment of the present invention. The fifth drawing is a schematic view of a fourth embodiment of the present invention. Figure 6 is a schematic view of a fifth embodiment of the present invention. [Main component symbol description] • 10 base 20 rotating carrier 201 substrate ' 21 light emitting array group 210, 220, 230, 240, 250 light emitting unit 211, 221, 231, 241, 251 first light emitting array 212, 222, 232 second LIGHT Array 213, 223, 233 Third illuminating array 214, 224, 234 Fourth illuminating array 225 Fifth illuminating array 226 Sixth illuminating array 2411, 2511 Base column illuminating array 2412, 2512 Neighboring illuminating array X spacing