TWI609257B - Electronic assembly and docking station - Google Patents
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Description
本發明是有關於一種電子組件與擴充基座。The invention relates to an electronic component and a docking station.
一般而言,可攜式電子裝置具備攜帶方便與及時發訊息等特點,因此能廣為消費者所青睞。常見的可攜式電子裝置包含有筆記型電腦、智慧型手機以及平板電腦等,其中平板電腦的顯示螢幕的尺寸較智慧型手機的顯示螢幕的尺寸為大,且平板電腦的重量較筆記型電腦的重量為輕,因而成為消費者選購可攜式電子裝置時的主要品項之一。In general, portable electronic devices are characterized by easy portability and timely messaging, and thus can be widely favored by consumers. Common portable electronic devices include notebook computers, smart phones, and tablets. The display screen size of the tablet computer is larger than that of the smart phone display screen, and the weight of the tablet computer is smaller than that of the notebook computer. The weight is light, which makes it one of the main items for consumers to purchase portable electronic devices.
由於平板電腦需以觸控顯示螢幕的方式行操作,且其功能性及擴充性又較筆記型電腦為不足,遂有擴充基座被提出,以與平板電腦作組合,藉由將平板電腦組裝於擴充基座上並以無線或有線的手段達到訊號傳輸的狀態後,使用者便可透過擴充基座上的鍵盤組操作平板電腦。Since the tablet needs to be operated by the touch display screen, and its functionality and expandability are insufficient compared to the notebook computer, an expansion dock is proposed to be combined with the tablet computer, by assembling the tablet computer. After the signal is transmitted on the docking station and wirelessly or by wire, the user can operate the tablet through the keyboard group on the docking station.
常見的擴充基座大多是將卡勾與電連接器暴露於機殼外,不僅易受碰撞而造成損傷,亦難以具有簡約的外型。同時,平板電腦僅能以單一方向組裝至擴充基座,因而在操作模式上仍存在相當的不便性。Most of the common docking bases expose the hooks and electrical connectors to the outside of the casing, which is not only vulnerable to collisions, but also difficult to have a simple appearance. At the same time, the tablet can only be assembled to the docking station in a single direction, so there is still considerable inconvenience in the operating mode.
本發明提供一種擴充基座與電子組件,其具有能雙向翻轉的載板,以讓可攜式電子裝至能以不同面向而被支撐於擴充基座上。The present invention provides an expansion base and an electronic component having a carrier plate that can be flipped bidirectionally to allow the portable electronics to be supported on the docking station with different orientations.
本發明的電子組件,包括可攜式電子裝置與擴充基座。電子裝置具有彼此相對的第一表面與第二表面,其中第一表面是顯示面。擴充基座包括機體與第一載板、第二載板及第三載板,其中第一載板、第三載板與第二載板依序且並排地配置於機體上。第一載板沿第一軸鉸接於機體,第二載板沿第二軸鉸接於機體,該第三載板沿第一軸自由樞接於第二載板,且第三載板沿第二軸自由樞接於第一載板,其中第一軸平行但不重合於第二軸。The electronic component of the present invention includes a portable electronic device and a docking station. The electronic device has a first surface and a second surface opposite to each other, wherein the first surface is a display surface. The expansion base includes a body, a first carrier, a second carrier, and a third carrier. The first carrier, the third carrier, and the second carrier are sequentially disposed side by side on the body. The first carrier is hinged to the body along the first axis, the second carrier is hinged to the body along the second axis, the third carrier is freely pivoted to the second carrier along the first axis, and the third carrier is along the second The shaft is freely pivoted to the first carrier, wherein the first axis is parallel but not coincident with the second axis.
本發明的擴充基座,用以承載可攜式電子裝置。擴充基座包括機體與第一載板、第二載板及第三載板。第一載板具有彼此相對的第一邊緣與第二邊緣,第一邊原鉸接於機體,以使第一載板相對於機體旋轉並開闔。第二載板具有彼此相對的第三邊緣與第四邊緣,第三邊緣鉸接於機體,以使第二載板相對於機體旋轉並開闔。第三載板具有彼此相對的第五邊緣與第六邊緣,第五邊緣自由樞接於第四邊緣,第六邊緣自由樞接於第二邊緣。當第一載板相對於機體展開時,第三載板隨第一載板相對於機體展開,並形成第一狀態,以使可攜式電子裝置承載於第一載板、第三載板而立設於擴充基座上。當第二載板相對於機體展開時,第三載板隨第二載板相對於機體展開,並形成第二狀態,以使可攜式電子裝置承載於第二載板、第三載板而立設於擴充基座上。The docking station of the present invention is used to carry a portable electronic device. The docking station includes a body and a first carrier, a second carrier, and a third carrier. The first carrier has a first edge and a second edge opposite to each other, and the first side is originally hinged to the body to rotate and open the first carrier relative to the body. The second carrier has a third edge and a fourth edge opposite to each other, and the third edge is hinged to the body to rotate and open the second carrier relative to the body. The third carrier has a fifth edge and a sixth edge opposite to each other, the fifth edge is freely pivoted to the fourth edge, and the sixth edge is freely pivoted to the second edge. When the first carrier is unfolded relative to the body, the third carrier is unfolded relative to the body with the first carrier, and is formed in a first state, so that the portable electronic device is carried on the first carrier and the third carrier. It is located on the docking station. When the second carrier is unfolded relative to the body, the third carrier is unfolded relative to the body with the second carrier and forms a second state, so that the portable electronic device is carried on the second carrier and the third carrier. It is located on the docking station.
基於上述,本發明於上述實施例揭示擴充基座具有設置在機體上的第一載板、第二載板與第三載板,同時讓第一載板及第二載板的不同側(軸)分別鉸接於擴充基座的機體,而再以第一載板與第二載板的另一不同側(軸)之間自由樞接第三載板,而值得注意的是,所述不同側(軸)分別與第一載板與機體的鉸接處,以及第二載板與機體的鉸接處同軸。如此一來,在第一載板與第二載板各自相對於機體旋轉時,均分別能帶動第三載板旋轉,因此造成第三載板能以不同軸向相對於機體進行翻轉,而造成雙面翻轉的效果,據以讓可攜式電子裝置能以不同狀態立設在擴充基座上,以達到不同操作模式的效果。Based on the above, the present invention discloses that the docking station has the first carrier board, the second carrier board and the third carrier board disposed on the body, and the different sides of the first carrier board and the second carrier board (axis) ) respectively hinged to the body of the docking station, and then freely pivots the third carrier between the first carrier and the other different side (axis) of the second carrier, and it is worth noting that the different sides The (axis) is respectively coaxial with the hinge of the first carrier and the body, and the hinge of the second carrier and the body. In this way, when the first carrier plate and the second carrier plate are respectively rotated relative to the body, respectively, the third carrier plate can be rotated respectively, thereby causing the third carrier plate to be inverted with respect to the body in different axial directions, thereby causing The double-sided flip effect allows the portable electronic device to be erected on the docking station in different states to achieve different operating modes.
為讓本發明的上述特徵和優點能更明顯易懂,下文特舉實施例,並配合所附圖式作詳細說明如下。The above described features and advantages of the invention will be apparent from the following description.
圖1是依據本發明一實施例的一種擴充基座的示意圖。圖2與圖3分別是依據本發明一實施例的一種電子組件於另一狀態的示意圖,所示電子組件10是將擴充基座100於不同狀態之間進行切換,以讓可攜式電子裝置200能以不同姿勢承載於擴充基座上100。請同時參考圖1至圖3,在本實施例中,電子組件10包括可攜式電子裝置200與擴充基座100,其中可攜式電子裝置200例如是平板電腦,其具有彼此相對的第一表面S1與第二表面S2,其中第一表面S1是平板電腦的顯示面。擴充基座100包括機體110、第一載板121、第二載板122與第三載板123,其中機體110區分為第一區A1與第二區A2,前述第一載板121、第三載板123與第二載板122依序且並排地配置於機體110的第一區A1,而擴充基座100的輸入介面,例如鍵盤,則設置在第二區A2。1 is a schematic view of a docking station in accordance with an embodiment of the present invention. FIG. 2 and FIG. 3 are schematic diagrams showing another embodiment of an electronic component according to an embodiment of the present invention. The electronic component 10 is configured to switch the docking station 100 between different states to enable the portable electronic device. The 200 can be carried on the docking station 100 in different postures. Referring to FIG. 1 to FIG. 3 , in this embodiment, the electronic component 10 includes the portable electronic device 200 and the docking station 100 , wherein the portable electronic device 200 is, for example, a tablet computer having first facing each other. The surface S1 and the second surface S2, wherein the first surface S1 is a display surface of the tablet. The docking station 100 includes a body 110, a first carrier 121, a second carrier 122, and a third carrier 123. The body 110 is divided into a first area A1 and a second area A2, and the first carrier 121 and the third. The carrier 123 and the second carrier 122 are disposed side by side in the first area A1 of the body 110, and the input interface of the docking station 100, such as a keyboard, is disposed in the second area A2.
在本實施例中,第一載板121沿第一軸X1鉸接於機體110,第二載板122沿第二軸X2鉸接於機體110,第三載板123沿第一軸X1自由樞接於第二載板122,且第三載板123沿第二軸X2自由樞接於第一載板121,其中第一軸X1平行但不重合於第二軸X2,而在本實施例中,第一軸X1與第二軸X2彼此保持固定距離而分屬載板121~123的相對兩側。In this embodiment, the first carrier 121 is hinged to the body 110 along the first axis X1, the second carrier 122 is hinged to the body 110 along the second axis X2, and the third carrier 123 is freely pivoted along the first axis X1. The second carrier 122 is freely pivotally connected to the first carrier 121 along the second axis X2, wherein the first axis X1 is parallel but not coincident with the second axis X2, and in this embodiment, The one axis X1 and the second axis X2 are kept at a fixed distance from each other and are divided on opposite sides of the carrier plates 121 to 123.
進一步地說,鉸鏈(hinge)141連接在第一載板121與機體110之間,以讓第一載板121能據以相對於機體110而以第一軸X1旋轉。鉸鏈142連接在第二載板122與機體110之間,以讓第二載板122能據以相對於機體110而以第二軸X2旋轉。同時,軸件131將第一載板121與第三載板123彼此自由樞接在一起,而軸件132將第二載板122與第三載板123自由樞接在一起。Further, a hinge 141 is connected between the first carrier 121 and the body 110 to allow the first carrier 121 to rotate relative to the body 110 by the first axis X1. The hinge 142 is coupled between the second carrier 122 and the body 110 such that the second carrier 122 can be rotated relative to the body 110 by the second axis X2. At the same time, the shaft member 131 freely pivots the first carrier plate 121 and the third carrier plate 123 to each other, and the shaft member 132 freely pivots the second carrier plate 122 and the third carrier plate 123 together.
在此所述自由樞接是指所連接之構件之間能以軸件自由轉動而不存在扭力,而有別於鉸鏈(141或142)所產生鉸接(存在扭力)的效果。再者,軸件131、軸件132與前述第一軸X1、第二軸X2是處於彼此平行的狀態,而在圖1所示的平鋪狀態時,軸件131實質上能被視為與第二軸X2一致,而軸件132實質上能被視為與第一軸X1一致。Here, the free pivoting means that the connected members can freely rotate with the shaft member without the torque, and is different from the hinge (141 or 142) to produce the hinge (there is a torque). Furthermore, the shaft member 131, the shaft member 132 and the aforementioned first axis X1 and second axis X2 are in a state of being parallel to each other, and in the tiled state shown in FIG. 1, the shaft member 131 can be substantially regarded as The second axis X2 is identical, and the shaft member 132 can be substantially considered to coincide with the first axis X1.
據此,隨著前述構件的搭配,擴充基座100便能藉由第一載板121、第二載板122與第三載板123形成不同狀態。如圖2與圖3所示的第一狀態,第一載板121與第三載板123立設於機體110,因此可攜式電子裝置200便能以其第二表面S2承靠其上,而使第一表面S1面對機體110的第二區A2而與輸入介面面向機體110的同一側,讓電子組件10能模擬筆記型電腦的操作模式。Accordingly, with the combination of the foregoing members, the docking station 100 can be formed in different states by the first carrier 121, the second carrier 122, and the third carrier 123. In the first state shown in FIG. 2 and FIG. 3, the first carrier 121 and the third carrier 123 are erected on the body 110, so that the portable electronic device 200 can bear on the second surface S2 thereof. The first surface S1 faces the second area A2 of the body 110 and the input interface faces the same side of the body 110, allowing the electronic component 10 to simulate the operation mode of the notebook.
詳細而言,本實施例的第三載板123具有磁性區150(能藉由將磁鐵配置於第三載板123內而形成,但不因此限制其形成磁性區150的手段及磁性區150的範圍),而可攜式電子裝置200的第二表面S2能因其結構材料特性而具備導磁性,因而在如圖1所示的平鋪狀態下,當可攜式電子裝置200以其第二表面S2靠近第三載板123時,便能對第三載板123產生磁吸效果而將其從圖1的平鋪狀態掀起。此時,當使用者將可攜式電子裝置200朝向機體110的第二區A2翻轉時,也就是可攜式電子裝置200相當於以第一軸X1進行旋轉時,由於第二載板122是以軸件132自由樞接第三載板123,相當於第三載板123是以軸件132進行轉動,因此第二載板122並不會隨著第三載板123轉動。相對地,由於第一載板121是以軸件131自由樞接第三載板123,因此便能讓第一載板121隨著第三載板123而同步從機體110被掀起,而呈現第三載板123與第一載板121立設於機體110,而第二載板122平鋪於機體110的狀態。In detail, the third carrier 123 of the present embodiment has a magnetic region 150 (which can be formed by disposing a magnet in the third carrier 123, but does not thereby limit the means for forming the magnetic region 150 and the magnetic region 150. Scope), while the second surface S2 of the portable electronic device 200 can be magnetically permeable due to its structural material characteristics, so in the tiling state as shown in FIG. 1, when the portable electronic device 200 is second When the surface S2 is close to the third carrier 123, the magnetic effect of the third carrier 123 can be generated and picked up from the tiled state of FIG. At this time, when the user flips the portable electronic device 200 toward the second area A2 of the body 110, that is, when the portable electronic device 200 is rotated by the first axis X1, since the second carrier 122 is The third carrier 123 is freely pivoted by the shaft member 132, and the third carrier 123 is rotated by the shaft member 132. Therefore, the second carrier 122 does not rotate with the third carrier 123. In contrast, since the first carrier 121 is freely pivotally connected to the third carrier 123 by the shaft member 131, the first carrier 121 can be picked up from the body 110 synchronously with the third carrier 123. The three carrier plates 123 and the first carrier plate 121 are erected on the body 110, and the second carrier plate 122 is laid flat on the body 110.
圖4繪示圖2的電子組件於又一狀態的示意圖。與前述類似地,在如圖1所示的平鋪狀態,而讓可攜式電子裝置200靠近第三載板123,但以第二軸X2,也就是讓第三載板123以軸件131進行翻轉,而產生與前述(圖2、圖3)不同的效果,形成讓第二載板122隨著第三載板123而立設於機體110,但第一載板121仍平鋪於機體110的第二狀態。此時可攜式電子裝置200仍是以第二表面S2承靠在第二載板122、第三載板123與機體110上,而使第一表面S1背對輸入介面,以模擬使用可攜式電子裝置200的觀賞模式。4 is a schematic diagram of the electronic component of FIG. 2 in yet another state. Similarly to the foregoing, in the tiled state as shown in FIG. 1, the portable electronic device 200 is brought close to the third carrier 123, but with the second axis X2, that is, the third carrier 123 is used as the shaft member 131. The flipping is performed to produce a different effect from the foregoing (Fig. 2, Fig. 3), so that the second carrier 122 is erected on the body 110 along with the third carrier 123, but the first carrier 121 is still laid flat on the body 110. The second state. At this time, the portable electronic device 200 still bears on the second carrier 122, the third carrier 123, and the body 110 with the second surface S2, so that the first surface S1 faces away from the input interface to simulate the use of the portable device. The viewing mode of the electronic device 200.
請再參考圖1,僅針對本實施例的擴充基座100而言,第一載板121、第二載板122與第三載板123是彼此不重疊地配置在機體110的第一區A1,其中第一載板121具有彼此相對的第一邊緣E1與第二邊緣E2,第一邊緣E1藉由鉸鏈141鉸接於機體110,第二載板122具有彼此相對的第三邊緣E3與第四邊緣E4,第三邊緣E3藉由鉸鏈142鉸接於機體110,第三載板123具有彼此相對的第五邊緣E5與第六邊緣E6,而第五邊緣E5同軸樞接於第四邊緣E4,第六邊緣E6同軸樞接於第二邊緣E2。值得一提的是,在圖1所示的平鋪狀態下,第一邊緣E1、第五邊緣E5與第四邊緣E4實質上位於同一直線上而與第一軸X1一致,而第二邊緣E2、第三邊緣E3與第六邊緣E6實質上位於同一直線上而與第二軸X2一致。Referring to FIG. 1 again, for the docking station 100 of the present embodiment, the first carrier 121, the second carrier 122, and the third carrier 123 are disposed in the first area A1 of the body 110 without overlapping each other. The first carrier 121 has a first edge E1 and a second edge E2 opposite to each other, the first edge E1 is hinged to the body 110 by a hinge 141, and the second carrier 122 has third edges E3 and fourth opposite to each other. The edge E4 and the third edge E3 are hinged to the body 110 by a hinge 142. The third carrier 123 has a fifth edge E5 and a sixth edge E6 opposite to each other, and the fifth edge E5 is coaxially pivoted to the fourth edge E4. The six-edge E6 coaxially pivots to the second edge E2. It is worth mentioning that, in the tiling state shown in FIG. 1, the first edge E1, the fifth edge E5 and the fourth edge E4 are substantially on the same straight line and coincide with the first axis X1, and the second edge E2 The third edge E3 and the sixth edge E6 are substantially on the same straight line and coincide with the second axis X2.
圖5與圖6分別以不同視角繪示本發明另一實施例的一種電子組件的示意圖。請同時參考圖5與圖6,在本實施例中,電子組件20同樣包括可攜式電子裝置200與擴充基座300,而與前述不同的是,擴充基座300的機體110的第一區A1是由第一載板321與第三載板322佔滿,而第三載板323重疊於第一載板321、第二載板322上,也就是說,第三載板323是以其不同區塊分別與第一載板321、第二載板322重疊,且第一載板321與第二載板322彼此不重疊。FIG. 5 and FIG. 6 are schematic diagrams showing an electronic component according to another embodiment of the present invention from different perspectives. Referring to FIG. 5 and FIG. 6 simultaneously, in the embodiment, the electronic component 20 also includes the portable electronic device 200 and the docking station 300, and the first region of the body 110 of the docking base 300 is different from the foregoing. A1 is occupied by the first carrier 321 and the third carrier 322, and the third carrier 323 is overlapped with the first carrier 321 and the second carrier 322, that is, the third carrier 323 is The different blocks overlap the first carrier 321 and the second carrier 322, respectively, and the first carrier 321 and the second carrier 322 do not overlap each other.
再者,第三載板323具有第一開口323a與第二開口323b,且第一載板321具有第一磁性區351,第二載板322具有第二磁性區352,其中第一磁性區351與第一開口323a彼此對應,而第二磁性區352與第二開口323b彼此對應。Furthermore, the third carrier 323 has a first opening 323a and a second opening 323b, and the first carrier 321 has a first magnetic region 351, and the second carrier 322 has a second magnetic region 352, wherein the first magnetic region 351 The first openings 323a correspond to each other, and the second magnetic regions 352 and the second openings 323b correspond to each other.
此外,與前述實施例類似的是,第一載板321是以鉸鏈341鉸接於機體110的第一區A1,第二載板322是以鉸鏈342鉸接於機體的第一區A1,而第一載板321與第三載板323同以軸件331彼此自由樞接,第二載板322與第三載板323同以軸件332彼此自由樞接,上述構件配置及其與第一軸X1、第二軸X2的相互關係與前述實施例相同,在此便不再贅述。In addition, similar to the foregoing embodiment, the first carrier 321 is hinged to the first area A1 of the body 110 by a hinge 341, and the second carrier 322 is hinged to the first area A1 of the body by a hinge 342, and the first The carrier 321 and the third carrier 323 are freely pivotally connected to each other by the shaft member 331. The second carrier 322 and the third carrier 323 are freely pivotally connected to each other by the shaft member 332. The member configuration and the first axis X1 are respectively The mutual relationship of the second axis X2 is the same as that of the foregoing embodiment, and will not be described herein.
在本實施例中僅繪示等同於前述第一狀態為例,此時,第一開口323a位於第三載板323與第一載板321的重疊範圍,且第一磁性區351經由第一開口323a而對應地磁吸可攜式電子裝置200的第二表面S2。也就是說,當本實施例的擴充基座300是處於前述圖1的平鋪狀態時,如前述,使用者以可攜式電子裝置200的第二表面S2靠近第三載板323時,因第一載板321的第一磁性區351會經由第一開口323a而暴露出,因此便能磁吸於可攜式電子裝置200的第二表面S2,因而讓第三載板323能被夾持於第一載板321與可攜式電子裝置的第二表面之間,如此,所述三個構件便能一同被移動,而翻轉至圖5、圖6所示的第一狀態。In the present embodiment, only the first state is exemplified. In this case, the first opening 323a is located in the overlapping range of the third carrier 323 and the first carrier 321 , and the first magnetic region 351 is via the first opening. 323a correspondingly magnetically attracts the second surface S2 of the portable electronic device 200. That is, when the docking station 300 of the present embodiment is in the tiled state of FIG. 1, as described above, when the user approaches the third carrier 323 with the second surface S2 of the portable electronic device 200, The first magnetic region 351 of the first carrier 321 is exposed through the first opening 323a, so that it can be magnetically attracted to the second surface S2 of the portable electronic device 200, thereby allowing the third carrier 323 to be clamped. Between the first carrier 321 and the second surface of the portable electronic device, the three members can be moved together and turned to the first state shown in FIGS. 5 and 6.
類似地,在第二狀態時,第二開口323b位於第三載板323與第二載板322的重疊範圍,且第二磁性區352經由第二開口323b而對應地磁吸可攜式電子裝置200的第二表面S2,在此雖未繪示,但由前述構件的配置及動作敘述已能清楚得知。另一方面,在本實施例中,第一載板321具有彼此相對的第一邊緣F1與第二邊緣F2,第二載板322具有彼此相對的第三邊緣F3與第四邊緣F4,第三載板323具有彼此相對的第五邊緣F5與第六邊緣F6,其中本實施例在如圖1所示的平鋪狀態時,第一邊緣F1與第四邊緣F4呈一直線,而第五邊緣F5位於所述直線上方,第二邊緣F2與第三邊緣F3呈另一直線,而第六邊緣F6位於所述另一直線上方。Similarly, in the second state, the second opening 323b is located in the overlapping range of the third carrier 323 and the second carrier 322, and the second magnetic region 352 correspondingly magnetically charges the portable electronic device 200 via the second opening 323b. Although the second surface S2 is not shown here, it can be clearly understood from the arrangement and operation of the above-described members. On the other hand, in the present embodiment, the first carrier 321 has a first edge F1 and a second edge F2 opposite to each other, and the second carrier 322 has a third edge F3 and a fourth edge F4 opposite to each other, and a third The carrier 323 has a fifth edge F5 and a sixth edge F6 opposite to each other. When the embodiment is in the tiling state as shown in FIG. 1, the first edge F1 and the fourth edge F4 are in a line, and the fifth edge F5. Located above the straight line, the second edge F2 and the third edge F3 are in another straight line, and the sixth edge F6 is located above the other straight line.
圖7繪示本發明另一實施例的電子組件的示意圖。本實施例的電子組件30同樣包括可攜式電子裝置200與擴充基座400,與前述實施例不同的是,擴充基座400的機體110上僅配置第一載板421與第二載板422,其中第一載板421以鉸鏈441鉸接於機體110的第一區A1,第二載板422以鉸鏈442鉸接於機體110第一區A1,且第一載板421與第二載板422在平鋪狀態實質上佔滿第一區A1。此外,與前述實施例類似的是,第一載板421具有第一磁性區351,而第二載板422具有第二磁性區352,且前述構件與第一軸X1、第二軸X2的相互關係也與前述實施例相同,因此便不再贅述。FIG. 7 is a schematic diagram of an electronic component according to another embodiment of the present invention. The electronic component 30 of the present embodiment also includes the portable electronic device 200 and the docking station 400. The difference from the foregoing embodiment is that only the first carrier 421 and the second carrier 422 are disposed on the body 110 of the docking station 400. The first carrier 421 is hinged to the first area A1 of the body 110 by a hinge 441, and the second carrier 422 is hinged to the first area A1 of the body 110 by a hinge 442, and the first carrier 421 and the second carrier 422 are The tiled state substantially fills the first zone A1. Further, similar to the foregoing embodiment, the first carrier 421 has the first magnetic region 351, and the second carrier 422 has the second magnetic region 352, and the aforementioned members are mutually coupled with the first axis X1 and the second axis X2. The relationship is also the same as the foregoing embodiment, and therefore will not be described again.
據此可攜式電子裝置200便能因與第一載板421或第二載板422的磁吸效果而分別將第一載板421或第二載板422從機體掀起,以達到承靠在機體110及第一載板421,或承靠在機體110與第二載板422的支撐狀態。According to the portable electronic device 200, the first carrier 421 or the second carrier 422 can be lifted from the body respectively by the magnetic attraction effect of the first carrier 421 or the second carrier 422 to achieve the bearing. The body 110 and the first carrier 421 are supported by the body 110 and the second carrier 422.
綜上所述,在本發明的上述實施例中,擴充基座具有設置在機體上的第一載板、第二載板與第三載板,同時讓第一載板及第二載板的不同側(軸)分別鉸接於擴充基座的機體,而再以第一載板與第二載板的另一不同側(軸)之間自由樞接第三載板,而值得注意的是,所述不同側(軸)分別與第一載板與機體的鉸接處,以及第二載板與機體的鉸接處同軸。In summary, in the above embodiment of the present invention, the docking station has a first carrier board, a second carrier board and a third carrier board disposed on the body, and the first carrier board and the second carrier board are disposed at the same time. The different sides (shafts) are respectively hinged to the body of the docking station, and the third carrier is freely pivoted between the first carrier and the other different side (axis) of the second carrier, and it is worth noting that The different sides (shafts) are respectively coaxial with the hinge of the first carrier and the body, and the hinge of the second carrier and the body.
如此一來,在第一載板與第二載板各自相對於機體旋轉時,均分別能帶動第三載板旋轉,因此造成第三載板能以不同軸向相對於機體進行翻轉,而造成雙面翻轉的效果,據以讓可攜式電子裝置能以不同狀態立設在擴充基座上,以達到不同操作模式的效果。In this way, when the first carrier plate and the second carrier plate are respectively rotated relative to the body, respectively, the third carrier plate can be rotated respectively, thereby causing the third carrier plate to be inverted with respect to the body in different axial directions, thereby causing The double-sided flip effect allows the portable electronic device to be erected on the docking station in different states to achieve different operating modes.
雖然本發明已以實施例揭露如上,然其並非用以限定本發明,任何所屬技術領域中具有通常知識者,在不脫離本發明的精神和範圍內,當可作些許的更動與潤飾,故本發明的保護範圍當視後附的申請專利範圍所界定者為準。Although the present invention has been disclosed in the above embodiments, it is not intended to limit the present invention, and any one of ordinary skill in the art can make some changes and refinements without departing from the spirit and scope of the present invention. The scope of the invention is defined by the scope of the appended claims.
10、20、30‧‧‧電子組件10, 20, 30‧‧‧ electronic components
100、300、400‧‧‧擴充基座100, 300, 400‧‧‧ docking station
200‧‧‧可攜式電子裝置200‧‧‧Portable electronic devices
110‧‧‧機體 121、321、421‧‧‧第一載板110‧‧‧ body 121, 321, 421‧‧‧ first carrier
122、322、422‧‧‧第二載板122, 322, 422‧‧‧ second carrier
123、323‧‧‧第三載板123, 323‧‧‧ third carrier
131、132‧‧‧軸件131, 132‧‧‧ shaft parts
141、142、341、342、441、442‧‧‧鉸鏈141, 142, 341, 342, 441, 442‧‧‧ hinges
150‧‧‧磁性區150‧‧‧Magnetic area
323a‧‧‧第一開口323a‧‧ first opening
323b‧‧‧第二開口323b‧‧‧ second opening
351‧‧‧第一磁性區351‧‧‧First Magnetic Zone
352‧‧‧第二磁性區352‧‧‧Second magnetic zone
A1‧‧‧第一區A1‧‧‧First District
A2‧‧‧第二區A2‧‧‧Second District
E1、F1‧‧‧第一邊緣E1, F1‧‧‧ first edge
E2、F2‧‧‧第二邊緣E2, F2‧‧‧ second edge
E3、F3‧‧‧第三邊緣E3, F3‧‧‧ third edge
E4、F4‧‧‧第四邊緣E4, F4‧‧‧ fourth edge
E5、F5‧‧‧第五邊緣E5, F5‧‧‧ fifth edge
E6、F6‧‧‧第六邊緣E6, F6‧‧‧ sixth edge
S1‧‧‧第一表面S1‧‧‧ first surface
S2‧‧‧第二表面S2‧‧‧ second surface
X1‧‧‧第一軸X1‧‧‧ first axis
X2‧‧‧第二軸X2‧‧‧ second axis
圖1是依據本發明一實施例的一種擴充基座的示意圖。 圖2與圖3分別是依據本發明一實施例的一種電子組件於另一狀態的示意圖。 圖4繪示圖2的電子組件於又一狀態的示意圖。 圖5與圖6分別以不同視角繪示本發明另一實施例的一種電子組件的示意圖。 圖7繪示本發明另一實施例的電子組件的示意圖。1 is a schematic view of a docking station in accordance with an embodiment of the present invention. 2 and 3 are schematic views of another electronic component in another state according to an embodiment of the invention. 4 is a schematic diagram of the electronic component of FIG. 2 in yet another state. FIG. 5 and FIG. 6 are schematic diagrams showing an electronic component according to another embodiment of the present invention from different perspectives. FIG. 7 is a schematic diagram of an electronic component according to another embodiment of the present invention.
10‧‧‧電子組件 10‧‧‧Electronic components
100‧‧‧擴充基座 100‧‧‧Expansion base
110‧‧‧機體 110‧‧‧ body
121‧‧‧第一載板 121‧‧‧First carrier
122‧‧‧第二載板 122‧‧‧second carrier
123‧‧‧第三載板 123‧‧‧ third carrier
131、132‧‧‧軸件 131, 132‧‧‧ shaft parts
141、142‧‧‧鉸鏈 141, 142‧‧‧ Hinges
150‧‧‧磁性區 150‧‧‧Magnetic area
200‧‧‧可攜式電子裝置 200‧‧‧Portable electronic devices
A1‧‧‧第一區 A1‧‧‧First District
A2‧‧‧第二區 A2‧‧‧Second District
S1‧‧‧第一表面 S1‧‧‧ first surface
S2‧‧‧第二表面 S2‧‧‧ second surface
X1‧‧‧第一軸 X1‧‧‧ first axis
X2‧‧‧第二軸 X2‧‧‧ second axis
Claims (15)
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TW105136569A TWI609257B (en) | 2016-11-10 | 2016-11-10 | Electronic assembly and docking station |
US15/662,240 US9996112B2 (en) | 2016-11-10 | 2017-07-27 | Electronic assembly and docking station |
Applications Claiming Priority (1)
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TW105136569A TWI609257B (en) | 2016-11-10 | 2016-11-10 | Electronic assembly and docking station |
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TWI609257B true TWI609257B (en) | 2017-12-21 |
TW201818188A TW201818188A (en) | 2018-05-16 |
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Citations (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US6700775B1 (en) * | 2002-11-22 | 2004-03-02 | Compal Electronics, Inc. | Portable electronic apparatus having a cover device with a stand unit for supporting a user interface device |
TW201322766A (en) * | 2011-11-18 | 2013-06-01 | Benq Corp | Peripheral input device |
CN203276121U (en) * | 2013-05-03 | 2013-11-06 | 纬创资通股份有限公司 | Fixing device for fixing portable electronic device and portable electronic system |
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2016
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Patent Citations (3)
Publication number | Priority date | Publication date | Assignee | Title |
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US6700775B1 (en) * | 2002-11-22 | 2004-03-02 | Compal Electronics, Inc. | Portable electronic apparatus having a cover device with a stand unit for supporting a user interface device |
TW201322766A (en) * | 2011-11-18 | 2013-06-01 | Benq Corp | Peripheral input device |
CN203276121U (en) * | 2013-05-03 | 2013-11-06 | 纬创资通股份有限公司 | Fixing device for fixing portable electronic device and portable electronic system |
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