【物品用途】;本設計所應用的物品為一種導電片,可進一步使用於觸控面板。;【設計說明】;本設計是可作為觸控面板(例如,電阻式觸控面板、投影型靜電容式觸控面板)等的一部分而使用的導電片中導電圖案,例如非連接部。該導電片包括:透明的薄膜基材、形成於所述薄膜基材上的導電圖案、設置於所述導電圖案的端部的端子、以及從所述端子往所述薄膜基材的一端延伸的直線狀配線(請參照參考圖1)。本物品使用於所述觸控面板時,如參考圖1所示,將兩個導電片重疊而使用。此時,各導電片的導電圖案是不重疊而配置(請參照參考圖4)。在參考圖1中,上側為本申請的設計所應用的導電片,下側為與上側的導電片相對向的導電片。兩個;導電片基本上是相同的形狀,而導電圖案的位置、端子的數量或位置、直線狀配線的數量或位置、長度、薄膜基材的留白處(導電圖案不存在部位的大小)等是相異的。再者,1個導電片的兩面都可配置導電圖案。;如參考圖1~參考圖3所示,所述導電圖案包括:最小的正方形或菱形的部位(小正方形部)、為所述小正方形部4個份量的大小的正方形或菱形的部位(中正方形部)、含有多個所述的小正方形部以及2個的所述中正方形部之最大的略正方形或略菱形的部位(大正方形部)、為所述小正方形部3個份量的大小的長方形的部位(小長方形部)、為所述小長方形部2個份量的大小的長方形的部位(大長方形部)、以及配置在所述大正方形部的周圍且由多個直線狀的部位(直線部)構成的非連接部。每條直線狀配線串聯連接於多個大正方形部,且各列的大正方形部之間是利用連接部而進行連接,所述連接部含有:中正方形部、小正方形部、大長方形部以及小長方形部。結果是,大正方形部設置成矩陣狀。將兩個導電片進行重疊的狀態、且各大正方形部佔有的區域的合計,例如為A4尺寸(210mm×297mm)的程度。再者,例如可使用銀來作為導電圖案。;並且,如參考圖4所示,將本申請設計所應用的導電片以及與此相對向的導電片重疊時,各自的導電片上所形成的導電圖案並不會重疊。再者,為了從參考圖4而易於理解兩導電片的導電圖案沒有重疊的樣子,將本申請設計以及本設計所應用的導;電片的導電圖案以粗線表示。例如,未繪示的電荷檢測器連接在各直線狀配線的狀態,當指尖碰觸重疊的兩個導電片時,上側及下側各自的導電片中接觸位置的電荷變化可由所述電荷檢測器所檢測出來,而定位出指尖所碰觸的場所。;薄膜基材的厚度例如是可在0.01mm~2.0mm之中進行選擇,此處,約為0.1mm。導電圖案、端子以及直線狀配線的厚度例如是可在0.0005mm~0.2mm之中進行選擇,此處,約為0.01mm。導電圖案及直線狀配線的厚度方向的剖面是矩形狀,再者,端子為長方體狀。;參考圖5為顯示本申請設計所應用的物品的流通狀態的一個例子,且本物品可卷繞於一線芯(core)。再者,參考圖5中省略導電圖案、端子以及直線狀配線。;本設計所應用的導電片的部分外形可產生獨特之視覺效果。;參考圖1為顯示兩個導電片為分離狀態的立體參考圖。;參考圖2為導電圖案的部分擴大的前視參考圖。;參考圖3為顯示大正方形部的前視參考圖。;參考圖4為顯示兩個導電片為重疊狀態的部分擴大前視參考圖。;參考圖5為顯示本物品的流通狀態的一個例子的立體參考圖。;圖式所揭露之虛線係表示所應用之導電片物品,為本案;不主張設計之部分。另外,圖式所揭露的一點鎖線表示省略部分,並且以兩點鏈線(二點鎖線)所圍繞者係界定本案所欲主張之範圍,圖式中兩點鏈線為本案不主張之部分。。本設計的後視圖因與前視圖對稱而省略。本設計的物品中,薄膜基材是透明的。在參考圖1及前視圖中,以一點鎖線表示之省略的部分是:重覆排列之如參考圖2所顯示的導電圖案(但,省略位置非連接部以虛線表示)。在前視圖中,省略位置的尺寸為:縱方向約185mm(參考圖2所示之導電圖案稍微大於27個)、橫方向約275mm(稍微大於40個)。[Application of the article]; The article applied by this design is a conductive sheet, which can be further used in a touch panel. ; [Design description]; This design is a conductive pattern in a conductive sheet that can be used as a part of a touch panel (for example, a resistive touch panel, a projection type electrostatic capacitive touch panel), such as a non-connecting portion. The conductive sheet includes: a transparent film substrate, a conductive pattern formed on the film substrate, a terminal disposed at the end of the conductive pattern, and a straight line extending from the terminal to one end of the film substrate (see reference figure 1). When this article is used in the touch panel, as shown in reference figure 1, two conductive sheets are overlapped and used. At this time, the conductive patterns of each conductive sheet are arranged without overlapping (see reference figure 4). In reference FIG1 , the upper side is the conductive sheet used in the design of this application, and the lower side is the conductive sheet opposite to the conductive sheet on the upper side. The two conductive sheets are basically the same shape, but the position of the conductive pattern, the number or position of the terminals, the number or position of the straight wiring, the length, the blank space of the film substrate (the size of the part where the conductive pattern does not exist), etc. are different. Furthermore, the conductive pattern can be arranged on both sides of a conductive sheet. As shown in reference figures 1 to 3, the conductive pattern includes: the smallest square or diamond-shaped part (small square part), the square or diamond-shaped part (medium square part) that is four times the size of the small square part, the largest slightly square or slightly diamond-shaped part (large square part) containing a plurality of the small square parts and two of the medium square parts, a rectangular part (small rectangular part) that is three times the size of the small square parts, a rectangular part (large rectangular part) that is two times the size of the small rectangular parts, and a non-connecting part arranged around the large square part and composed of a plurality of straight-line parts (straight-line parts). Each straight-line wiring is connected in series to a plurality of large square parts, and the large square parts of each column are connected by a connecting part, and the connecting part contains: a medium square part, a small square part, a large rectangular part, and a small rectangular part. As a result, the large square parts are arranged in a matrix shape. The total area occupied by the large square portions when the two conductive sheets are overlapped is, for example, of the size of A4 (210 mm × 297 mm). Furthermore, for example, silver can be used as the conductive pattern. Furthermore, as shown in reference FIG4, when the conductive sheet used in the design of the present application and the conductive sheet opposite thereto are overlapped, the conductive patterns formed on the respective conductive sheets do not overlap. Furthermore, in order to make it easier to understand from reference FIG4 that the conductive patterns of the two conductive sheets do not overlap, the conductive patterns of the design of the present application and the conductive sheet used in the design are represented by thick lines. For example, when a charge detector not shown is connected to each linear wiring, when a fingertip touches two overlapping conductive sheets, the charge change at the contact position in each of the upper and lower conductive sheets can be detected by the charge detector, and the place touched by the fingertip can be located. ;The thickness of the film substrate can be selected from 0.01mm to 2.0mm, for example, and is about 0.1mm here. The thickness of the conductive pattern, the terminal, and the linear wiring can be selected from 0.0005mm to 0.2mm, for example, and is about 0.01mm here. The cross-section of the conductive pattern and the linear wiring in the thickness direction is rectangular, and the terminal is a cuboid. ;Refer to FIG5 for an example of the circulation state of an article to which the design of the present application is applied, and the article can be wound around a core. Furthermore, the conductive pattern, terminals, and straight wiring are omitted in reference FIG. 5. ;The partial shape of the conductive sheet used in this design can produce a unique visual effect. ;Reference FIG. 1 is a three-dimensional reference diagram showing two conductive sheets in a separated state. ;Reference FIG. 2 is a partially enlarged front view reference diagram of the conductive pattern. ;Reference FIG. 3 is a front view reference diagram showing a large square portion. ;Reference FIG. 4 is a partially enlarged front view reference diagram showing two conductive sheets in an overlapping state. ;Reference FIG. 5 is a three-dimensional reference diagram showing an example of the circulation state of this article. ;The dotted lines disclosed in the figure represent the conductive sheet article used, which is a part of the design not advocated by this case. In addition, the one-dot lock line disclosed in the figure indicates the omitted part, and the part surrounded by the two-dot chain line (two-dot lock line) defines the scope that the case intends to claim. The two-dot chain line in the figure is the part that the case does not claim. . The rear view of this design is omitted because it is symmetrical with the front view. In the article of this design, the film substrate is transparent. In reference figure 1 and the front view, the omitted part represented by the one-dot lock line is: the conductive pattern shown in reference figure 2 is repeatedly arranged (however, the non-connected part of the omitted position is represented by a dotted line). In the front view, the size of the omitted position is: about 185mm in the longitudinal direction (the conductive pattern shown in reference figure 2 is slightly larger than 27), and about 275mm in the horizontal direction (slightly larger than 40).