請參閱台灣專利證書號M579768「觸控筆結構及其筆尾單元」,該專利係揭示有:一種觸控筆結構及其筆尾單元,觸控筆結構包括:一筆殼單元、一筆芯單元、一按鍵單元以及一筆尾單元。筆殼單元的一端的側邊向外凸出而形成一凸出部。筆芯單元穿設於筆殼單元的另一端。按鍵單元能活動地設置於筆殼單元的本體。筆尾單元包括一遮蔽件以及連接於遮蔽件的一接合件,接合件能拆卸地連接於筆殼單元的該一端,以使得遮蔽件與筆殼單元接合。
該專利雖有著上述之優點,然而,當該觸控螢幕顯示有虛擬旋鈕時,使用此種觸控筆將難以順暢地於該觸控螢幕上畫出弧線,而無法有效控制該虛擬旋鈕,也因此,本發明創作者認為此種問題實有解決之必要。
Please refer to Taiwan Patent Certificate No. M579768 "Structural Pen Structure and Pen End Unit", which discloses: a stylus pen structure and its pen end unit. The stylus pen structure includes: a pen shell unit, a pen core unit, A button unit and a stroke end unit. A side edge of one end of the pen case unit protrudes outward to form a protruding portion. The pen core unit is passed through the other end of the pen shell unit. The key unit can be movably arranged on the main body of the pen case unit. The pen tail unit includes a shielding piece and an engaging piece connected to the shielding piece. The engaging piece is detachably connected to the one end of the pen housing unit, so that the shielding piece is engaged with the pen housing unit.
Although the patent has the above advantages, however, when the touch screen displays a virtual knob, it is difficult to smoothly draw an arc on the touch screen with such a stylus, and the virtual knob cannot be effectively controlled. Therefore, the creator of the present invention believes that such a problem is necessary to be solved.
有鑑於先前技術所述不足之處,本發明創作者提出一種解決之手段,該手段係關於一種用於觸控螢幕之觸控旋鈕,包括:
一圓柱體:
該圓柱體沿頂底二端緣外側分別向外設有一唇緣,且該圓柱體一端設有一連結件用以連結觸控螢幕表面。
一外環體:
該外環體套設於該圓柱體外側,且各唇緣分別夾制該外環體之頂底二側,該外環體外側設有一可導電之操作部,以供人體手指控制該外環體沿該圓柱體轉動,該外環體底部設有一輸電端,該輸電端電性連接該操作部,且該觸控旋鈕設置於該觸控螢幕之狀態下,該輸電端與該觸控螢幕之間具有一間隙,以供人體手指、操作部、輸電端及該觸控螢幕共同形成一導電迴路。
本發明創作主要係透過人體手指控制該外環體轉動時,透過手指與該操作部、該輸電端、及該觸控螢幕共同形成一導電迴路,如此一來,當該觸控旋鈕設置於觸控螢幕表面時,便可透過轉動該外環體來達到操作該觸控螢幕之目的,以令該觸控螢幕之操作方式得以更為多元、擬真。
In view of the shortcomings of the prior art, the creator of the present invention proposes a solution, and the solution relates to a touch knob for a touch screen, including:
A cylinder:
The cylindrical body is respectively provided with a lip outward along the outer sides of the two end edges of the top and the bottom, and one end of the cylindrical body is provided with a connecting piece for connecting the surface of the touch screen.
An outer ring body:
The outer ring body is sleeved on the outside of the cylindrical body, and the lips are respectively clamped on the top and bottom sides of the outer ring body. A conductive operating part is arranged on the outer side of the outer ring body for the human finger to control the outer ring The body rotates along the cylindrical body, the bottom of the outer ring body is provided with a power transmission terminal, the power transmission terminal is electrically connected to the operation part, and the touch knob is arranged in the state of the touch screen, the power transmission terminal and the touch screen There is a gap therebetween for the fingers of the human body, the operation part, the power transmission end and the touch screen to form a conductive circuit together.
The invention of the present invention is mainly based on controlling the rotation of the outer ring body through the fingers of the human body, and forming a conductive loop together with the operation part, the power transmission end, and the touch screen through the fingers, so that when the touch knob is arranged on the touch screen When controlling the screen surface, the purpose of operating the touch screen can be achieved by rotating the outer ring body, so that the operation modes of the touch screen can be more diverse and realistic.
以下藉由圖式之輔助,說明本發明創作之構造、特點與實施例,俾使貴審查人員對於本發明創作有更進一步之瞭解。
請參閱第一圖所示,本發明創作係關於一種用於觸控螢幕之觸控旋鈕,包括:
一圓柱體(1):
請參閱第二圖配合第四圖所示,該圓柱體(1)沿頂底二端緣外側分別向外設有一唇緣(11),且該圓柱體(1)一端設有一連結件用以連結觸控螢幕(A)表面,其中,該連結件可為吸盤、壓敏膠,舉凡可供該觸控旋鈕設置於觸控螢幕(A)者,均為本發明創作所指之連結件。此外,該圓柱體(1)於實際實施時,主要係透過上圓柱體(12)與下圓柱體(13)之上下對接,利用黏著方式(例如但不限於超音波熔接)而共同形成該圓柱體(1)。
一外環體(2):
請參閱第二圖配合第四圖所示,該外環體(2)套設於該圓柱體(1)外側,且各唇緣(11)分別夾制該外環體(2)之頂底二端,該外環體(2)外側設有一可導電之操作部(21),以供人體手指控制該外環體(2)沿該圓柱體(1)轉動,其中,該操作部(21)之實施方式可以是:該外環體(2)頂部外側設有一凸肋以形成該操作部(21),以令使用者可以透過手指捏住該凸肋以供轉動該外環體(2);此外,該操作部(21)也可以實施為:該外環體(2)頂部外側設有一向內凹陷之缺陷部以形成該操作部(21);又或者以該外環體(21)之環側界定為該操作部(21),如此一來,使用者可以透過手指按入該缺陷部來達到轉動該外環體(2)之目的。而本說明書之圖式主要係以該外環體(21)之環側界定為該操作部(21)。
該外環體(2)底部設有一輸電端(22),該輸電端(22)電性連接該操作部(21),且該觸控旋鈕設置於該觸控螢幕(A)之狀態下,該輸電端(22)與該觸控螢幕(A)之間具有一間隙,以供人體手指、該操作部(21)、該輸電端(22)及該觸控螢幕(A)共同形成一導電迴路。
請參閱第五圖配合第六圖所示,本發明創作主要係令該觸控螢幕(A)所呈現之虛擬旋鈕,將該觸控旋鈕設置於該觸控螢幕(A)後形成一真實旋鈕,如此一來,當使用者透過該操作部(21)來轉動該外環體(2)時,使用者手指,該操作部(21)、該輸電端(22)及該觸控螢幕(A)共同形成該導電迴路,藉以達到控制該觸控螢幕(A)之目的,以令將該觸控螢幕(A)上的虛擬旋鈕變成真實旋鈕便於使用者進行操作。
請參閱第二圖配合第三圖及第四圖所示,以下介紹二種形成該輸電端(22)之實施態樣,其中之一是利用遮噴之方式將該外環體(2)表面鍍上導電材質,以形成可導電之該操作部(21)及該輸電端(22),其實施方式為:於該外環體(2)外側、該操作部(21)表面、及該外環體(2)之內環壁直接或間接連續設有一導電層(23),且該導電層(23)於該內環壁形成一條狀導電層(231),該條狀導電層(231)之底端界定為該輸電端(22)。
另一種方式是利用可電鍍材質及非可電鍍材質二種異型材,以浸鍍之方式令該外環體(2)表面鍍上導電材質,以形成可導電之該操作部(21)及該輸電端(22),如此一來可令該條狀導電層之製作良率較高,其實施方式為:於該外環體(2)外側、該操作部(21)、及該外環體(2)之內環壁間接設有連續之該導電層(23)之條件下,該外環體(2)外側、該操作部(21)表面及該外環體(2)之內環壁連續設有一覆蓋層(24),且該覆蓋層(24)於該內環壁形成一條狀覆蓋層(241);該覆蓋層(24)為可電鍍材質所製,該外環體(2)為非可電鍍材質所製,且該導電層(23)電鍍設於該覆蓋層(24)表面,該條狀導電層(231)電鍍設於該條狀覆蓋層(241)表面。
綜上所述,本發明創作確實符合產業利用性,且未於申請前見於刊物或公開使用,亦未為公眾所知悉,且具有非顯而易知性,符合可專利之要件,爰依法提出專利申請。
惟上述所陳,為本發明創作在產業上一較佳實施例,舉凡依本發明創作申請專利範圍所作之均等變化,皆屬本案訴求標的之範疇。
The following describes the structure, features and embodiments of the invention with the aid of the drawings, so as to make your examiners have a better understanding of the invention.
Please refer to the first figure, the invention relates to a touch knob for a touch screen, including:
A cylinder (1):
Please refer to the second figure in conjunction with the fourth figure, the cylinder (1) is provided with a lip (11) along the outer sides of the two end edges of the top and bottom respectively, and one end of the cylinder (1) is provided with a connecting piece for Connect to the surface of the touch screen (A), wherein the connecting piece can be a suction cup or pressure-sensitive adhesive, and any one that can be used to set the touch knob on the touch screen (A) is the connecting piece referred to in the creation of the present invention. In addition, when the cylinder (1) is actually implemented, the upper cylinder (12) and the lower cylinder (13) are mainly butted up and down, and the cylinder is jointly formed by an adhesive method (such as but not limited to ultrasonic welding). body (1).
An outer ring body (2):
Please refer to the second figure in conjunction with the fourth figure, the outer ring body (2) is sleeved on the outer side of the cylindrical body (1), and each lip (11) clamps the top and bottom of the outer ring body (2) respectively At the two ends, a conductive operating portion (21) is provided on the outer side of the outer ring body (2) for the human finger to control the rotation of the outer ring body (2) along the cylindrical body (1), wherein the operating portion (21) ) can be implemented as follows: a convex rib is provided on the outer side of the top of the outer ring body (2) to form the operating portion (21), so that the user can pinch the convex rib through fingers to rotate the outer ring body (2). ); in addition, the operation part (21) can also be implemented as: the outer ring body (2) top outer side is provided with an inwardly recessed defect part to form the operation part (21); or the outer ring body (21) ) is defined as the operating portion (21), so that the user can press the defective portion with fingers to achieve the purpose of rotating the outer ring body (2). In the drawings of this specification, the ring side of the outer ring body (21) is mainly defined as the operation part (21).
The bottom of the outer ring body (2) is provided with a power transmission terminal (22), the power transmission terminal (22) is electrically connected to the operation part (21), and the touch knob is arranged in the state of the touch screen (A), There is a gap between the power transmission terminal (22) and the touch screen (A), so that human fingers, the operation part (21), the power transmission terminal (22) and the touch screen (A) together form a conductive loop.
Please refer to Figure 5 in conjunction with Figure 6, the invention is mainly based on making a virtual knob displayed on the touch screen (A), and setting the touch knob on the touch screen (A) to form a real knob , in this way, when the user rotates the outer ring body (2) through the operation part (21), the user's fingers, the operation part (21), the power transmission end (22) and the touch screen (A ) together form the conductive loop, so as to achieve the purpose of controlling the touch screen (A), so as to turn the virtual knob on the touch screen (A) into a real knob, which is convenient for the user to operate.
Please refer to the second figure in conjunction with the third and fourth figures, two implementations of forming the power transmission terminal (22) are introduced below, one of which is to use the method of shielding the surface of the outer ring body (2) A conductive material is plated to form the operating portion (21) and the power transmission terminal (22) that can conduct electricity. The inner ring wall of the ring body (2) is directly or indirectly continuously provided with a conductive layer (23), and the conductive layer (23) forms a strip-shaped conductive layer (231) on the inner ring wall, and the strip-shaped conductive layer (231) The bottom end is defined as the power transmission end (22).
Another way is to use two kinds of profiles of electroplatable material and non-electroplatable material to coat the surface of the outer ring body (2) with a conductive material by immersion plating, so as to form the conductive portion (21) and the conductive material. The power transmission end (22), so as to make the strip-shaped conductive layer have a higher production yield, the implementation is as follows: on the outer side of the outer ring body (2), the operation part (21), and the outer ring body Under the condition that the inner ring wall of (2) is indirectly provided with the continuous conductive layer (23), the outer side of the outer ring body (2), the surface of the operating portion (21) and the inner ring wall of the outer ring body (2) A cover layer (24) is continuously provided, and the cover layer (24) forms a strip-shaped cover layer (241) on the inner ring wall; the cover layer (24) is made of an electroplatable material, and the outer ring body (2) The conductive layer (23) is electroplated on the surface of the cover layer (24), and the strip-shaped conductive layer (231) is electroplated on the surface of the strip-shaped cover layer (241).
To sum up, the creation of the present invention is indeed in line with industrial applicability, and has not been seen in publications or publicly used before the application, nor has it been known to the public, and it is not obvious and easy to understand, and meets the requirements for patentability. Application.
However, the above-mentioned statements are the preferred embodiments of the invention in the industry, and all the equivalent changes made according to the scope of the patent application for the invention are all within the scope of the claims of this case.