M439852 五、新型說明 【新型所屬之技術領域】 本創作係有關一種觸控筆,尤盆是 筆與使时㈣糊幡 【先前技術】 =㈣巾,馳崎之需求快速成長,使得觸控產 步1核日益壯大,觸控面板是貼附在液晶顯示器上的 裝置’利料指或觸控筆壓顯示器面板 介二應用範嶋手機、電子書、電腦辭典、;=機 紅v航裝置、提款機等。觸控技術依面板尺寸大小區分, ί主要技術和分$ 12相上,以表面聲波、表面式電 谷、光學式等為主;而12相下,以投射式電容(薄膜、 玻璃)、電阻式為主。 、 、,著觸控面板的多元以及演變,各種觸控筆的製作方 式孕月而生,在電容式觸控面板中,習知之觸控筆的製作 技術,為了增加使用者使用觸控筆來控制觸控面板的效 果’多半在筆桿的結構設計有可導電的元件或可以產生耦 合電谷的電路。例如:美國專利US.pub.No.2010/0053120 教導一種觸控筆,其係在筆殼上設置有導電元件以構成導 電的迴路。此外,在美國專利US.Pat.No.5914708也教導一 種具有導電殼體的觸控筆,透過導電殼體讓觸控筆與使用 者有任何電相關的耦合作用,以增加觸控筆的電容感應量。 【新型内容】 3 M439852 本創作提供-種絕緣觸控筆,其係具有完全絕緣的筆 桿,增加被動式電容式觸控筆的電容感應量,而不需讓觸 控筆與使用者有任何電相關的麵合作用,也可使筆桿的設 计跳脫金屬材質’可以使用各種非導體的材質進行外觀設 計’進而達到個種造型。 在一實施例中,本創作提供一種絕緣觸控筆,其係包 含-絕緣筆桿部、-感應電容產生部以及一感應筆頭部。 該感應電容產生部’其係設置於該絕緣筆桿部内。該感應 筆頭部,其係設置於該絕緣筆桿部之一端, 岸電 容產生部減,該感應筆頭部係用以接收該感應電容= 部所提供之感應電荷。 在一實施例中,該感應筆頭部包括有一可以產生感應 電谷的撓性體’其係設置於賴緣筆桿部之-端,且與該 感應電容產生部相_,以及—纖維,其係包覆於該可以 產生感應電容的撓性體上。 在一實施例中,該感應筆頭部包括有一撓性體,其係 設置於該絕緣筆桿部之一端,且與該感應電容產生部相柄 接,以及一導電纖維,其係包覆於該撓性體上。 在貫知例中,該感應電容產生部為導 導電線圈、多蕊心導綠或導電網。 黧醫付 在一實施例中,該感應電容產生部為空心或實心導電 柱體。 在實知例中,§亥感應電容產生部為複數個導電片連 接而成’其中該複數個導電片連接形成具有複數個凹部結 構相互串接形成該感應電容產生部。 M439852 【實施方式】 為使貴審查委員能對本創作之特徵、目的及功能有 更進一步的認知與瞭解,下文特將本創作之系統的相關細 部結構以及設計的理念原由進行說明,以使得審查委員可 以了解本創作之特點,詳細說明陳述如下: 請參閱圖一所示’該圖係為本創作之觸控筆實施例示 意圖。本創作之絕緣觸控筆2係屬於一種被動式電容式觸 控筆。要說明的是’所謂被動式係指觸控筆並非透過一可 產生感應電容的電路來操控觸控面板,而是僅透過靜電荷 所產生的感應電容來控制觸控面板。該觸控筆2包括有一 絕緣筆桿部20、一感應筆頭部21以及一感應電容產生部 22。該絕緣筆桿部2〇係為具有一中空區域2〇〇的桿體結 構,其一端具有開口。絕緣係指絕緣筆桿部2〇上的電荷不 能自由移動者。該絕緣筆桿部2〇的材質可以使用非金屬材 質,例如:木材、竹材或者是塑膠高分子材料等材質。由 於本,作的筆桿部為絕緣的材f,因此不需使用人體的感 應電荷效應,所以人在使用時可以使用任何非導體材質來 接觸觸控筆如皮毛質、塑膠手㈣,更容易使用。此外, 由於該筆杯部20之材質為非導體的材質,因此可以避免觸 控體(如觸控面板)上靜電傳導到人體上發生電擊現象。 該感應筆頭部21,其係設置於該絕緣筆桿部2〇具有 開口之-端以與感應電容產生部22相_。感應筆頭部 21之用意在於讓使用者在觸控書寫時,可以藉由書寫摩擦 之故聚集感應電荷,進而可以和觸控面板間產生感應電 5 M4 现 52 勺括右控::處控面板。在本實施例中,該感應筆頭部21 == 生體210以及一連接件211。該撓性體210係 為具有¥電性的撓性體,例如 空空間212以作為奎窝埃偷夕田等電夕#其内具有一中 接么目亡道#為曰寫緩衝之用。該連接件211則可以選 擇為八有導電性或非導電性的材f。在—實施例中, ^件211為具有導電性之環狀扣件,如:金屬環,其」端 與該感應電容產生部22相、鱼始 - 21〇相耦接。連接件盥另一端則與該挽性體 B相連接的方式,^應^谷^生部22以及感應筆頭部 23h禮成移〜 所示,透過鑲嵌塊23a與 Γ底ί 合的方式來連接L B的實施例中, ^ f頭部21套設在鎮嵌塊23a上,再飯入於該連接件 ,透過緊密配合駐法讓感應筆頭部2 鑲嵌塊= 以根據需=ΓΒ=的是’連接方式可 _人_、 疋卫不以圖一Β之例為限,例如亦可以為 變:方St或透過外力施加於金屬環上金屬環透過形 於,二ί拘束力於該感應電容產生部22上來實施。至 ^撓體210就不一定限制要與感應電容產生部22直接 =產=以透過本身為導體的連接件211來傳導感應 生。卩22所提供之感應電荷。 性之在另—實施例中,如果該連接件211為非導電 部22^目連°接件’則該連接件211之一端與該感應電容產生 相連接,而另一端則與該撓性體21〇相 是性體=也與縣應電容產生部22直接連接。要 月J述之實施方式中,如果該撓性體21〇與該感應電 M439852 谷產生部22連接強度夠的話,則該連接#2ιι並非為必要 之疋件,可以視狀況省略。根據前述圖一 b的方式, ^部:可以套設在鑲嵌塊上,再嵌人於該感應電二 —另外如圖二所示,該圖係為本創作之感應筆頭部另一 貫施例示意圖。在本實施财,該感應筆頭部21包括有一 撓性體2!3、-導電纖維214以及—連接件21卜該撓性體 213 ’其係設置於該絕緣筆桿部2〇具有開口之一端。該換 ί·生體213 ’可以為具有彈性的橡膠或梦膠,該挽性體Mg 内具有中空空間212。該撓性體213可以增加筆端的挽性, 以作為觸控書寫緩衝之用’讓觸控操作更平順。而該導電 减”隹214 ’係為-導電布料,通常為布料纖維上混有導電 粒子’但不以此方式為導電纖維之限制。該導電纖維叫, 其係包覆於該撓性體213上,jl與該感應電容產生部22相 輕接,用以傳遞該感應電容產生部22所提供的感應電荷。 =連接件211則可以選擇為具有導電性或非導電性的材 質,其結構如圖一之實施例所述,在此不作贅述。 —另外,如圖二所示,該圖係為本創作之感應筆頭部又 貫苑例不思圖。在本實施例中,該感應筆頭部21包括有 導電撓性體215、一纖維216以及一連接件211。該導電 撓I1生體215,其係設置於該絕緣筆桿部2〇具有開口之一 端,且與該感應電容產生部22相耦接。該纖維216,係為 布料,其係包覆於該導電撓性體215上。該導電撓性體 上’可以為具有導電性以及彈性的導電橡膠或導電矽膠, 忒導電撓性體215内具有一中空空間212。該導電撓性體 M439852 謓舖可以增加筆端的撓性,以作為觸控書寫緩衝之用, 接供j作更=順之外,更可以傳導感應電容產生部22所 應電何。料接件211料以選擇為具有導電性 =導電性的材f,其結構如圖—之實施例所述,在此不 根據圖一與圖二之實施例,也可以讓該撓性體與 該纖維同時都具有導電性。 再回到圖一所示,該感應電容產生部22,豆係設置於 筆桿部2G内。在本實施例中,該感應電容產生部 一導電網的結構。要說明的是,該感應電容產生部U 占該中空區域200的比例,並無絕對之限制,可以完全不 佔滿,中空區域200 ’或者是只佈設於該中空區域200内 ,特疋比例的空間’這是取決於該感應電容產生部Μ所能 夠產生的感應電荷的能力而定。請參閱圖四與圖五所示, 〆圖係為本創作之感應電容產生部的各種不同實施例示意 圖。在圖四(a)中,該感應電容產生部係為實心導電柱& 22a;而在圖四(b)中,該感應電容產生部為空心導電柱體 22b;在圖四(c)中,該感應電容產生部為多蕊心的導線 2構成;在圖四(d)+,感應電容產生部為導電線圈22d的 結構;在圖四(e)中,感應電容產生部則為導電纖 所構成。 另外,如圖五所示,在圖五(a)中,該感應電容產生部 係為具有複數層的導電片220f堆疊而成的導電結構; 而在圖五(b)中,該感應電容產生部為具有複數個導電片 22〇g連接而成的導電結構22g,每一個導電片22〇g —端則 連接另一導電片,而至少兩個的導電片22〇g連接形成具有 M439852 221= 部,而在圖五⑻,,則是由兩個凹部結構 22 1 g連接而成;在圖五( rt- -t, 個凹部-構22】,日: 應電容產生部具有複數 -端A: ” 複數個凹部結構叫由筆桿部之 感歸ΐίίΓ 一端方向排列連接而成;在圖五⑷中,該 具有複數個呈現V字形的凹部結構221h, 凹部結構22lh由筆桿之一端向筆桿之另一端 部传為由Μ °、此外’再另一實施例中’該感應電容產生 1 電纖維材料、導電線圈、多蕊心導線、導電網、 ΐ片、車;^柱體、實心導電柱體、導電流質材料、複數個導 電片^接而成的結構中任選兩種以上之組合而成。 _R 一二t閱圖/、所示’该圖係為本創作之感應電容產生部 貫施例示思圖。在本實施例中,該感應電容產生部22 可以利科電流質的材料,充填在絕緣筆桿部如之中空 區域内。該導電流質材料可以選擇為導電液體,或 電沙^材f。另外,要說明較’充填在該中空區域内並 不定代表將该中空區域完全充滿。另外如圖七所示,其 係為本創作之感應電容產生部又一實施例示意圖。在本實 該感應電容產生部22為導電流質材料,其係裝載 在一容器220内,再與該感應筆頭部21相耦接。 本創作的觸控筆’由於具有感應電容產生部,因此可 用於增加觸控筆的電容感應量,而不需讓觸控筆與使用者 ^何電相關_合仙’致使筆桿的設計跳脫金屬材 貝,可以使用各種非導體的絕緣材質進行外觀設計。 本創作在上文中已以實施例揭露,然熟習本項技術者 9 M439852 應理解的是,該實施例僅用於描繪本創作,而不 限制本創作之範圍。應注意蚊,舉凡與該實施^等^ 變化與範圍當以下文之申請專利範圍所界定者為準。 【圖式簡單說明】 圖一A係為本創作之觸控筆實施例示意圖。 圖一 B係為本創作之連接件與感應電容產生部以及感 應筆頭部連接實施例示意圖。 〜 圖二係為本創作之感應筆頭部另一實施例示意圖。 圖三係為本創作之感應筆頭部又一實施例示意圖。 圖四與圖五係為本創作之感應電容產生部的各種不同 實施例示意圖。 圖六係為本創作之感應電容產生部另一實施例示意 圖。 圖七係為本創作之感應電容產生部又一實施例示意 圖0 【主要元件符號說明】 2-觸控筆 20- 絕緣筆桿部 200-中空區域 21- 感應筆頭部 210- 撓性體 211- 連接件 212- 中空空間 10 M439852 213- 撓性體 214- 導電纖維 215- 導電撓性體 216- 纖維 22-感應電容產生部 220-容器 22a-實心導電柱體 22b-空心導電柱體 _ 22c-導線 22d-導電線圈 22e-導電纖維材料 22f-導電結構 220f-導電片 22g-導電結構 220g-導電片 221g,221h-凹部結構 • 23a,23b-鑲嵌塊 11M439852 V. New description [New technical field] This creation is related to a stylus, which is a pen and a time (four) paste [previous technology] = (four) towel, Chisaki's demand is growing rapidly, making touch production The 1st core is growing, and the touch panel is attached to the liquid crystal display. The device refers to the device or the stylus. The display panel is used for mobile phones, e-books, computer dictionaries, and mobile phones. Cash machine, etc. Touch technology is differentiated according to the size of the panel, ί main technology and sub-$12 phase, mainly surface acoustic wave, surface electric valley, optical type, etc.; and 12-phase, projected capacitance (film, glass), resistance Mainly. With the diversity and evolution of the touch panel, the production methods of various styluses are born in the past. In the capacitive touch panel, the production technology of the stylus is used to increase the user's use of the stylus. Controlling the effect of the touch panel 'Mostly the structure of the pen holder is designed with conductive elements or circuits that can couple the electric valley. For example, U.S. Patent No. 2010/0053120 teaches a stylus that is provided with a conductive element on the pen case to form a conductive circuit. In addition, US Pat. No. 5,914,708 also teaches a stylus with a conductive housing that allows the stylus to be electrically coupled to the user through a conductive housing to increase the capacitance of the stylus. Induction amount. [New Content] 3 M439852 This creation provides an insulated stylus with a fully insulated pen holder that increases the capacitive inductance of a passive capacitive stylus without the need for the stylus to be electrically related to the user. The face-to-face cooperation also allows the design of the pen to jump off the metal material 'you can use a variety of non-conductor materials for the design' to achieve a variety of shapes. In one embodiment, the present invention provides an insulated stylus that includes an insulated pen portion, a sensing capacitance generating portion, and a sensing pen head. The induction capacitance generating portion is disposed in the insulating sheath portion. The sensing pen head is disposed at one end of the insulating pen portion, and the shore capacitance generating portion is subtracted, and the sensing pen head is configured to receive the induced charge provided by the sensing capacitor= portion. In one embodiment, the inductive pen head includes a flexible body that can generate an induced electric valley, which is disposed at an end of the lip portion, and is coupled to the inductive capacitor generating portion, and a fiber Covered on the flexible body that can generate the sensing capacitance. In one embodiment, the inductive pen head includes a flexible body disposed at one end of the insulating pen portion and coupled to the inductive capacitor generating portion, and a conductive fiber wrapped around the flex Sexually. In the conventional example, the induction capacitance generating portion is a conductive coil, a multi-core green or a conductive mesh. In one embodiment, the inductive capacitance generating portion is a hollow or solid conductive cylinder. In a practical example, the sensing capacitance generating portion is formed by connecting a plurality of conductive sheets, wherein the plurality of conductive sheets are connected to form a plurality of concave portions which are connected in series to form the induced capacitance generating portion. M439852 [Embodiment] In order to enable your review committee to have a further understanding and understanding of the features, purposes and functions of this creation, the following is a detailed description of the relevant details of the system and the concept of the design. You can understand the characteristics of this creation, and the detailed description is as follows: Please refer to Figure 1 for a schematic diagram of the stylus embodiment of this creation. The insulated stylus 2 of this creation belongs to a passive capacitive touch pen. It should be noted that the so-called passive type of stylus does not operate the touch panel through a circuit that generates a sensing capacitor, but controls the touch panel only through the sensing capacitance generated by the static charge. The stylus pen 2 includes an insulating pen portion 20, a sensing pen head 21, and a sensing capacitance generating portion 22. The insulating sheath portion 2 is a rod structure having a hollow region 2〇〇 having an opening at one end. Insulation means that the charge on the insulating sheath portion 2 is not free to move. The material of the insulating pen portion 2 can be made of a non-metallic material such as wood, bamboo or a plastic polymer material. Since the pen portion is made of insulating material f, it is not necessary to use the inductive charge effect of the human body, so that any non-conductor material can be used to contact the stylus such as fur and plastic hand (four), which is easier to use. . In addition, since the material of the cup portion 20 is a non-conductor material, it is possible to prevent electric shock from being electrically transmitted to the human body on the touch control body (such as the touch panel). The inductive pen head 21 is disposed at an end of the insulating pen portion 2 having an opening to be in phase with the inductive capacitance generating portion 22. The purpose of the sensor pen head 21 is to allow the user to collect the induced charge by writing friction during the touch writing, thereby generating an inductive power between the touch panel and the touch panel. 5 M4 now 52 scoops of the right control:: control panel . In this embodiment, the sensor pen head 21 == the body 210 and a connector 211. The flexible body 210 is a flexible body having a chargeable property. For example, the empty space 212 is used as a buffer for the buffering of the Kuiwo, and the like. The connector 211 can be selected as an electrically conductive or non-conductive material f. In the embodiment, the member 211 is a conductive annular fastener, such as a metal ring, the end of which is coupled to the induction capacitor generating portion 22 and the fish-to-claw. The other end of the connecting member is connected to the pull-up body B, and the connecting portion 22 and the sensing pen head 23h are moved to each other, and are connected to the bottom of the connecting block 23a. In the embodiment of the LB, the ^ f head 21 is sleeved on the town block 23a, and the rice is placed in the connecting piece, and the sensing pen head 2 is inlaid by the close fitting method to = according to the need = ΓΒ = The connection method can be _ _ _, defensive is not limited to the example of the figure, for example, it can also be changed: square St or external force applied to the metal ring through the metal ring through the shape, two 拘 binding force on the induction capacitor The part 22 is implemented. The flexible body 210 is not necessarily limited to be directly inductively coupled to the induced capacitance generating portion 22 to transmit inductively through the connecting member 211 which is itself a conductor. The induced charge provided by 卩22. In another embodiment, if the connecting member 211 is a non-conductive portion 22, the one end of the connecting member 211 is connected to the sensing capacitor, and the other end is connected to the flexible body. The 21 phase is a sex body = and is also directly connected to the county capacitor generating portion 22. In the embodiment described in the above, if the flexible body 21A is sufficiently connected to the induction power M439852 valley generating portion 22, the connection #2ι is not necessary, and may be omitted as appropriate. According to the manner of the foregoing Figure 1b, the ^ part: can be set on the mosaic block, and then embedded in the induction electricity 2 - as shown in Figure 2, the figure is a schematic diagram of another embodiment of the sensor pen head of the creation . In the present embodiment, the inductive pen head 21 includes a flexible body 2!3, a conductive fiber 214, and a connecting member 21 which is disposed at one end of the insulating pen portion 2''. The replacement body 213' may be an elastic rubber or a dream gel having a hollow space 212 therein. The flexible body 213 can increase the pullability of the pen end for use as a touch writing buffer to make the touch operation smoother. The conductive minus "隹214" is a conductive cloth, usually a conductive particle mixed with cloth fibers, but is not limited by the conductive fiber in this way. The conductive fiber is called, and is coated on the flexible body 213. The jl is connected to the inductive capacitor generating portion 22 to transmit the induced charge provided by the inductive capacitor generating portion 22. The connecting member 211 can be selected as a conductive or non-conductive material, and the structure is as follows. The embodiment of Figure 1 is not described here. - In addition, as shown in Figure 2, the figure is the head of the sensor pen of the present invention. In this embodiment, the sensor pen head 21 includes a conductive flexible body 215, a fiber 216, and a connecting member 211. The conductive flexible I1 body 215 is disposed at one end of the insulating pen portion 2A and is opposite to the sensing capacitor generating portion 22. The fiber 216 is a cloth which is coated on the conductive flexible body 215. The conductive flexible body can be electrically conductive or elastic conductive rubber or conductive silicone, and conductive flexible body. There is a hollow space 212 in 215. The conductive flexible body M439852 can increase the flexibility of the pen end for use as a touch writing buffer, and can be used to control the capacitance of the sensing capacitor generating portion 22. The material connector 211 The material f is selected to have conductivity=conductivity, and its structure is as shown in the embodiment of the embodiment. However, according to the embodiment of FIG. 1 and FIG. 2, the flexible body and the fiber can be simultaneously Further, as shown in Fig. 1, the induction capacitance generating portion 22 and the bean system are disposed in the sheath portion 2G. In the present embodiment, the induction capacitance generating portion has a structure of a conductive mesh. The ratio of the induced capacitance generating portion U to the hollow region 200 is not absolutely limited, and may not be completely occupied. The hollow region 200' is only disposed in the hollow region 200, and the space of the special ratio 'depends on The ability of the induced capacitance generating unit to generate induced charges depends on the ability of the induced capacitance generating unit to be generated. Referring to FIG. 4 and FIG. 5, the drawing is a schematic diagram of various embodiments of the sensing capacitor generating unit of the present invention. a), the induction The generating portion is a solid conductive column &22a; and in FIG. 4(b), the sensing capacitor generating portion is a hollow conductive pillar 22b; in FIG. 4(c), the sensing capacitor generating portion is a multi-core In FIG. 4(d)+, the induction capacitance generating portion is a structure of the conductive coil 22d; in FIG. 4(e), the induction capacitance generating portion is composed of a conductive fiber. In addition, as shown in FIG. In FIG. 5(a), the sensing capacitor generating portion is a conductive structure in which a plurality of conductive sheets 220f are stacked; and in FIG. 5(b), the sensing capacitor generating portion has a plurality of conductive sheets. 22〇g connected conductive structures 22g, each conductive sheet 22〇g-end is connected to another conductive sheet, and at least two conductive sheets 22〇g are connected to form a portion having M439852 221=, and in Figure 5(8) , is formed by two concave structure 22 1 g; in Figure 5 (rt--t, one concave-structure 22), day: the capacitor generating portion has a complex-end A: ” a plurality of concave structures called The sensation of the pen portion is ΐίίΓ arranged at one end; in Figure 5 (4), the plurality has The V-shaped concave structure 221h, the concave structure 22lh is transmitted from one end of the pen to the other end of the pen to be Μ°, and in addition, in another embodiment, the induction capacitor generates 1 electric fiber material, conductive coil, multi-core The core wire, the conductive mesh, the cymbal piece, the car, the column body, the solid conductive column body, the conductive fluid material, and the plurality of conductive sheets are connected together to form a combination of two or more. _R 一二看图/, shown in the figure is a schematic diagram of the generation of the induced capacitance of the creation. In the present embodiment, the inductive capacitance generating portion 22 can be filled with a material of a Nicole current quality in a hollow region such as an insulating sheath portion. The conductive fluid material may be selected as a conductive liquid, or an electric sand material f. In addition, it is to be noted that the filling in the hollow region does not necessarily mean that the hollow region is completely filled. Further, as shown in FIG. 7, it is a schematic diagram of still another embodiment of the induced capacitance generating portion of the present invention. In the present embodiment, the induced capacitance generating portion 22 is a conductive fluid material which is loaded in a container 220 and coupled to the sensing pen head 21. The stylus of the present invention has a sensing capacitance generating portion, so it can be used to increase the capacitive sensing amount of the stylus without having to make the stylus related to the user's electricity. Metal shells can be designed with a variety of non-conductor insulation materials. The present invention has been disclosed above by way of example, and it is to be understood by those skilled in the art that the present invention is only intended to depict the present invention and not to limit the scope of the present invention. Attention should be paid to mosquitoes, and the implementation and the scope of the changes and scope are subject to the definition of the scope of the patent application below. [Simple description of the drawing] Figure 1A is a schematic diagram of an embodiment of the stylus of the present invention. Fig. 1B is a schematic view showing an embodiment of the connection of the created connector and the sensing capacitor generating portion and the sensing pen head. ~ Figure 2 is a schematic diagram of another embodiment of the sensor pen head of the present invention. FIG. 3 is a schematic diagram of still another embodiment of the sensor pen head of the present invention. Fig. 4 and Fig. 5 are schematic diagrams showing various different embodiments of the induced capacitance generating portion of the present invention. Fig. 6 is a schematic view showing another embodiment of the induced capacitance generating portion of the present invention. FIG. 7 is a schematic diagram of still another embodiment of the induced capacitance generating portion of the present invention. 0 [Description of main component symbols] 2-stylus 20 - insulated pen portion 200 - hollow region 21 - sensing pen head 210 - flexible body 211 - connection Piece 212 - Hollow space 10 M439852 213- Flexible body 214 - Conductive fiber 215 - Conductive flexible body 216 - Fiber 22 - Inductive capacitance generating part 220 - Container 22a - Solid conductive column 22b - Hollow conductive column _ 22c - Wire 22d - Conductive coil 22e - Conductive fiber material 22f - Conductive structure 220f - Conductive sheet 22g - Conductive structure 220g - Conductive sheet 221g, 221h - Recessed structure • 23a, 23b - Mosaic block 11