201020726 • 六、發明說明: 【發明所屬之技術領域】 本發明係有關於一種具磁性支樓腳架之電子裝置,係於 譬如為筆記型電腦、平板電腦等電子裝置上增設有支撐腳架 特別是一種利用磁性元件吸附於電子裝置的磁性支撐腳架。 【先前技術】 筆記型電腦或是平版電腦等電子裝置,為了配合使用者 的操作習慣,而可搭配腳架的設計,提供電子裝置不同角度的 支撐,而可滿足使用者操作上的便利性.。.最常見的操作角度可 ❿ 歸納為尚角度(約70〜80度)、中角度(約4〇〜6〇度)、與低 角度(約20〜35度);於高角度時,可當做為電子數位相框、 股票機使用、於申角度時,可供使用者於投影片作報告時,調 整適當角度以利提醒使用者報告之内容、或是作為觸控閱讀 等、而於低角度時’則方便使用者書寫時之便利性。 腳架的部份依照性質可區分為内置式以及附加式,内置 式一般設計連接於電子裝置背面,不使用時,可以折疊收納於 電子裝置内,而於需要使用時,可以將其拉出支撐電子裝置, 因為,量方便收納,以及電子裝置外觀的一致性,因此,結構 ® 上往往較脆弱。而附加式的腳架乃是額外的配件,使用者可以 ^據需求來選購’ S1為設計制供支撐電子裝錢的腳架,故 ±1構略為堅固’但是因為並非與電子裝置共同設計,所以趙積 較大,不方便攜帶。 不論是上述内置式或是附加式的腳架,一般來說,皆並 ^考量使用者操作的各㈣性,摊僅提供單―角度的支揮, ^者操作上並不是相#便利;且部份電子裝置設計為觸控發 =於,支_ ’使时操作不t、施力職、或是不小心 ^二f本等物品傾倒壓制聘,因為腳架並未設計有安全防 逐’在這些貞載_過大的情況下,絲使得腳_曲、或是 201020726 永久性的破壞,造成使用者相當的不便。 【發明内容】 根據本發明所揭露之一種具磁性支撐腳架之電子裝置, 係包含電子裝置機體與磁性支撐腳架,磁性支撐腳架具有磁性 元件、連桿與腳架,連桿二端分別樞接磁性元件以及腳架,而 藉由磁性元件吸附於電子裝置機體背面,藉由連桿使腳架收置 平貼於該電子裝置機體背面的收藏位置,並可藉由連桿連動使 腳架伸出至可支撐電子裝置機體的支撐位置;且於支撐位置 時’當使用者操作不當、施力過猛、或是不小心碰撞、重物傾 倒壓制,而造成電子裝置機體負載過大時,磁性元件會脫離電 子裝置機體背面’防止因為負載過大造成腳架、連桿永久性的 損壞。 另一方面,於支撐位置時,藉由磁性元件改變吸附於電 子裝置機體背面的位置高度,而可以調整支撐的角度,提供使 用者更多樣化的選擇。同時,滑槽可設計供磁性元件裝設滑 動、或是藉由相互連接的滑塊作為連桿,而可進一步提供不同 支撐角度的定位’方便使用者使用。且腳架的部份也可以設計 為包含橫桿、以及由橫桿二端延伸出的連接部,藉以提供較大 的支撐面積,提高支撐的穩定性。 因此’藉由磁性元件的設計,使得支撐腳架與電子裝置 機體之間的吸附力可以調整控制,而可於使用者操作不當、施 力過猛、或是不小心碰撞、重物傾倒壓制,而造成電子裝置機 體負,過大時脫離,免除支撐腳架損壞的可能性,不僅提示使 用者操作不當,同時亦可免除支撐腳架損壞後的維修、更替的 額外成本支出。 有關本發明之詳細内容及技術,茲就配合圖式說明如下。 201020726 【實施方式】 根據本發明所揭露之具磁性支撐腳架之電子 =「第1、2圖」所示’其為本發明具磁性支擇㈣之電^裝 置之分解、組合示意圏。 根據本發明所揭露之具磁性支撐腳架之電子裝置,勹 #電子裝置機體40與磁性支撐聊架,而磁性支撐聊架包^ 磁性元件10、連桿20與腳架30,可裝設於電子裝置機艘4〇 之背面41,而可將電子裝置機體4〇支撐於特定角度提供使 用者更加便利的操作磁性元件10可為磁鐵,或是金屬包覆 參 磁性物質的複合體,利用磁性吸附於電子裝置機體40的背面 41 ° 電子裝置機體40的背面41具有容置槽42,以供磁性元 件10裝設,因為電子裝置機體40的外殼常見為鋁、鎂合金或 是強化塑膠等,若是採用鋁、鎂合金等受磁性的金屬,則磁性 元件10可以直接吸附;或是採用強化塑膠等非磁性的材料, 則容置槽42的部份需要鋪設金屬等受磁性材質,提供磁性元 件10來吸附。 連桿20主要用以連接磁性元件10與腳架30,藉由第一 ❹ 樞轴21、第二樞軸22分別用以樞接磁性元件1〇、與腳架3〇, 使連桿20相對於磁性元件1〇轉動,腳架3〇亦可相對於連桿 20轉動。於本實施例中,連桿20設計為平板狀,以增加支撐 的強度;而腳架30的部份除了圖中所繪示的態樣外,亦可予 以改變、或是增大,以提高支撐的面積。 容置槽42的形狀大致上與磁性元件1〇、連桿2〇、與腳 架30相同,於不使用時,磁性元件10、連桿20、與腳架30 收置於容置槽42内,以維持電子裝置機體40之背面41外觀 的整體性。其中,磁性元件10利用磁力來吸附固定於容置槽 42 ’而連桿20、腳架30也可以採用較弱的磁力來吸附、或是 201020726 緊配合、卡槽、卡點等機械的方式來固定於此收藏位置而不脫 落。 請參閱「第3A〜3C圖」,其為本發明具磁性支撐腳架之 電子裝置之使用狀態的示意圖。 當使用者想要使用特殊角度來操作時,將連桿2〇拉出, 使得腳架30部份一併帶出,此時,磁性元件仍吸附於電子 裝置機體40上的原來位置並無改變,藉由腳架3〇支撐於固定 平面70上,而可將電子裝置機體4〇支撐於如第3八圖中的低 角度支撐位置,可供使用者譬如書寫等一般操作。 _201020726 • VI. Description of the invention: [Technical field of the invention] The present invention relates to an electronic device with a magnetic stand, which is provided with a support stand for electronic devices such as notebook computers and tablet computers. It is a magnetic support stand that is magnetically attracted to an electronic device. [Prior Art] Electronic devices such as notebook computers or lithographic computers can be matched with the design of the tripod to provide support for the electronic device at different angles in order to meet the user's operating habits, and to meet the user's convenience. . The most common operating angles can be summarized as still angles (about 70 to 80 degrees), medium angles (about 4 to 6 degrees), and low angles (about 20 to 35 degrees); at high angles, For electronic digital photo frames and stock machines, when the angle is applied, the user can adjust the appropriate angle to facilitate the user to report the content, or as a touch reading, etc., at low angles. 'It is convenient for users to write. The part of the tripod can be divided into a built-in type and an additional type according to the nature. The built-in type is generally designed to be connected to the back of the electronic device, and can be folded and stored in the electronic device when not in use, and can be pulled out and supported when needed. Electronic devices, because of their ease of storage and the consistency of the appearance of electronic devices, are often fragile on Structure®. The additional tripod is an extra accessory, and the user can purchase the 'S1 for the support of the electronically supported tripod according to the requirements, so the ±1 is slightly sturdy' but because it is not designed with the electronic device Therefore, Zhao Ji is large and not convenient to carry. Regardless of whether the above-mentioned built-in or attached stand is generally considered to be the (four) nature of the user's operation, the stand only provides a single-angled support, and the operation is not convenient. Some electronic devices are designed to touch the hair = y, support _ 'when the operation is not t, force, or careless ^ two f and other items dumped and hired, because the tripod is not designed to be safe against In the case of these 贞 overloads, the wire makes the foot _ 曲, or the permanent damage of 201020726, causing considerable inconvenience to the user. SUMMARY OF THE INVENTION According to the present invention, an electronic device with a magnetic support stand includes an electronic device body and a magnetic support stand. The magnetic support stand has a magnetic component, a connecting rod and a tripod, and the two ends of the connecting rod respectively The magnetic component and the tripod are pivotally connected, and the magnetic component is adsorbed on the back surface of the electronic device body, and the tripod is placed on the back of the electronic device body by the connecting rod, and the foot is connected by the connecting rod The frame protrudes to a support position capable of supporting the body of the electronic device; and in the support position, when the user's operation is improper, the force is too strong, or the accidental collision, the heavy object is poured and pressed, and the electronic device body is overloaded, The magnetic component will be off the back of the body of the electronic device to prevent permanent damage to the stand and connecting rod due to excessive load. On the other hand, at the support position, the height of the position adsorbed on the back surface of the body of the electronic device can be changed by the magnetic member, and the angle of the support can be adjusted to provide a more diverse choice for the user. At the same time, the chute can be designed to slide the magnetic component or as a connecting rod by connecting the sliders, and the positioning of the different supporting angles can be further provided for the convenience of the user. And the part of the tripod can also be designed to include a crossbar and a connecting portion extending from the two ends of the crossbar, thereby providing a larger supporting area and improving the stability of the support. Therefore, by the design of the magnetic component, the adsorption force between the support stand and the electronic device body can be adjusted and controlled, and the user can operate improperly, exert excessive force, or accidentally collide, heavy object dumping, The electronic device body is negative, and when it is too large, it is detached, and the possibility of damage to the support stand is eliminated, which not only prompts the user to operate improperly, but also eliminates the extra cost of maintenance and replacement after the support stand is damaged. The details and techniques of the present invention are described below in conjunction with the drawings. 201020726 [Embodiment] An electron with a magnetic support stand according to the present invention = "1st and 2nd views" is a decomposition and a combination of the electric device of the present invention. According to the electronic device with the magnetic support stand disclosed in the present invention, the electronic device body 40 and the magnetic support chat frame, and the magnetic support chat frame ^ magnetic element 10, the connecting rod 20 and the stand 30 can be installed in The back surface 41 of the electronic device can be supported by the electronic device body 4 at a specific angle to provide a more convenient operation for the user. The magnetic element 10 can be a magnet or a composite of a metal-coated magnetic substance. The rear surface 41 of the electronic device body 40 has a receiving groove 42 for the magnetic component 10 to be mounted, because the outer casing of the electronic device body 40 is usually aluminum, magnesium alloy or reinforced plastic. If a magnetic metal such as aluminum or a magnesium alloy is used, the magnetic element 10 can be directly adsorbed; or a non-magnetic material such as a reinforced plastic is used, and a portion of the accommodating groove 42 is required to be coated with a magnetic material such as a metal to provide a magnetic member. 10 to adsorb. The connecting rod 20 is mainly used for connecting the magnetic component 10 and the tripod 30. The first pivoting shaft 21 and the second pivoting shaft 22 are respectively used for pivoting the magnetic component 1 and the tripod 3 to make the connecting rod 20 When the magnetic element 1 turns, the stand 3〇 can also rotate relative to the link 20. In the embodiment, the connecting rod 20 is designed in a flat shape to increase the strength of the support; and the portion of the tripod 30 can be changed or increased in addition to the aspect shown in the figure to improve The area of support. The shape of the accommodating groove 42 is substantially the same as that of the magnetic element 1 〇, the connecting rod 2 〇, and the tripod 30. When not in use, the magnetic element 10, the connecting rod 20, and the stand 30 are housed in the accommodating groove 42. In order to maintain the integrity of the appearance of the back surface 41 of the electronic device body 40. The magnetic component 10 is adsorbed and fixed to the accommodating groove 42 ′ by the magnetic force, and the connecting rod 20 and the tripod 30 can also be adsorbed by a weak magnetic force, or a mechanical device such as a 201020726 tight fit, a card slot, or a card point. Fixed to this collection position without falling off. Please refer to "3A to 3C", which is a schematic view showing the state of use of the electronic device with the magnetic support stand of the present invention. When the user wants to use a special angle to operate, the connecting rod 2 is pulled out, so that the tripod 30 is partially taken out. At this time, the original position of the magnetic component still adsorbed on the electronic device body 40 does not change. The electronic device body 4 is supported by the low-angle support position as shown in FIG. _
當需要改變支撐角度時,僅需將磁性元件1〇往下移動, 換句話說,如第3B圖中,將磁性元件1〇朝向固定平面7〇方 向移動,同時,將電子裝置機體4〇底部朝向腳架3〇 (或是將 腳架30朝向電子裝置機體4〇)方向移動,使電子裝置機體 更加_近腳架30,而提供中角度的支撐位置,而可供使用者 於投影片作報告時,調整適當角度以利提醒使用者報告之内 容、或是作為觸控閱讀等各種操作。當然,亦可更進一步將磁 ^件1〇移動至接近容置槽42 _,見帛3C圖,而提供高 角度的支It位置,*可當做為電子數位她、股票機使用。 為了達到多角度的支推,若是電子裝置機體御 ^喊為強化塑膠等非磁性的材料構成,則鋪設的吸磁金需 伸至幾乎整個容置槽42 ’而使得磁性元件1G可以藉由透 變吸附的位置,而變更電子裝置機體40不同的支撐角度。 主擋30的部份,因為是樞接於連桿20上,因此不該 =度如何改變,皆可平貼於固定平面7〇上以提供 了達到各種支撐角度的定位,連桿20與磁性^ 地蓉位,可以設計為緊配合或是增設有固定卡點 壤等’來提供各種角度的固定。 月參閱第4圖」,其為本發明具磁性支撐腳架之電子裝 201020726 置之負載過大脫離之動作示意圖。 於支撐位置時(包括第3A〜3C圖的各種支撐位置),當 使用者操作不當、施力過猛、或是不小心碰撞、書本等物品傾 倒壓制等各種情況,造成電子裝置機體40負載過大時,因為 背面41的磁性元件10乃是利用磁力的方式吸附於電子裝置機 ,40,而非習知的機械式固定連接,因此,當負載超過磁性 元件10與電子裝置機體4〇之間的磁性吸附力時,磁性元件 Ip會脫離電子裝置機體4〇,而不會造成連桿2〇、或是腳架30 損壞或是永久性的破壞。 φ 另一方面,為了增加腳架的支撐性,請參閱「第5圖」, 為本發明具磁性支撐腳架之電子裝置之另一實施例之分解示 意圖。 聊架30的部份包含有橫桿31,橫桿31等同於電子裝置 機體40之寬度,且二端分別延伸出連接部32、33,藉由連接 部32、33分別樞接於電子裝置機體4〇背面41之底部的二侧。 同時’磁性元件10為滑塊的型態,配合電子裝置機體4〇之背 面41具有滑槽43,使磁性元件1〇可以於滑槽43内滑動,同 樣的,若是電子裝置機體40的外殼為強化塑膠等非磁性的材 料構成’則滑槽43内需要鋪設有吸磁金屬。連桿20為細桿狀, 藉由二端球形的型態,極接於磁性元件10以及腳架30之橫桿 31上。 如「第6A〜6C圖」所示,為本發明具磁性支撐腳架之 電子裝置根據第5圓之實施例的支撐位置動作示意圖。 於收藏位置時,見第6A圖,磁性元件1〇位於滑槽43的 最右侧,同樣的,為了維持外觀的一致性,連桿2〇採用細桿 狀’同時也配合滑槽43向斜下延伸具有與連桿20相同形狀, 而可供連桿20設置,來維持外觀的平整。當需要操作時,將 腳架30翻出,此時,藉由連桿20帶動,使得磁性元件於 201020726 滑槽43内滑動,見第6Β圖’而最後滑動至滑槽43的 見第6C圖,因此,此實施例中,可提供磁性元 槽43内的各種支樓位置的角度。 w 為了提供支推位置的定位’磁性元件1〇或是 =計為㈣合或是凸點、定位卡點等方式。_的, 1由磁性元件H)來_’因此若是電子裝置贿㈣載過大 ^險磁性元件⑴也會脫離,免除連桿2G、聊架%有損壞的 © 本坡^參閱「第7A、7B^’為本發明具磁性支樓腳架之電 子裝置之另一實施例之分解示意圖。 連桿20包含有第一滑塊23與第二滑塊24,第一 =^溝# 25,第二馳24 _固耕26嫌制於溝槽25 =動,使得第-滑塊23可相對於第二滑塊24滑動,如圖中 為卡,,她替代 電子架之 於收藏位置時,藉由容置槽42收納磁性元件1〇與連 之背= 持性’使腳架30平貼於電子裝置機體40 =元件1G於容置槽42内向下移動改變位f $藉= 會帶動使腳架30轉出,而支揮電子裝置1〇。 桿20乃是由第一滑塊23與第二滑塊24構成因 利用fit性10的位置來改變支擇角度外,也可以 角唐66松f塊23以及第二滑塊24相互滑動用以提供支撐位置 辞的離ί制二見第8B圖;同時’配合固定件26若是採用螺 段式的定位’於第-滑塊23之溝榜2 8 201020726 因此,本發明所揭露之具磁性支撐腳架之電子裝置,利 用磁性元件將連桿、腳架吸附於電子裝置機體背面,使得於支 撐位置時,當使用者操作不當、施力過猛、或是不小心碰撞、 書本等物品傾倒壓制等各種情況,而造成電子裝置機體負載過 大而超過磁性元件與電子裝置機體之間的磁性吸附力時,磁性 元件會脫離電子裝置機體,而不會如習知支擇聊架一般造成連 桿、或是腳架損壞或是永久性的破壞。 雖然本發明以前述之較佳實施例揭露如上,然其並非用 以限定本發明,任何熟習此技藝者,在不脫離本發明之精神和 範圍内’當可作些許之更動與潤飾,因此本發明之保護範圍當 視後附之申請專利範園所界定者為準。 【圖式簡單說明】 \ 第1圖為本發明具磁性支撐腳架之電子裝置之分解示意 团 · 圃, 第2圖為本發明具磁性支撐腳架之電子裝置之組合示意 圖; 第3A〜3C圓為本發明具磁性支撐腳架之電子裝置之使 用狀態的示意圖; 第4圖為本發明具磁性支撐腳架之電子裝置之負載過大 脫離之動作示意圖; 第5圖為本發明具磁性支撐腳架之電子裝置之另一實施 例之分解示意圖; 第6A〜6C圖為本發明具磁性支撐腳架之電子裝置根據 第5圖之實施例的支撐位置動作示意圖; 第7圖為本發明具磁性支標腳架之電子裝置之另一實施 例之分解示意圖;以及 201020726 第8A〜8B圖為本發明具磁性支撐腳架之電子裝置根據 第7圖之實施例的支撐位置動作示意圖。 ΟWhen it is necessary to change the support angle, it is only necessary to move the magnetic element 1 〇 downward. In other words, as shown in FIG. 3B, the magnetic element 1 移动 is moved toward the fixed plane 7 ,, and at the same time, the bottom of the electronic device body 4 is turned Moving toward the stand 3〇 (or the stand 30 toward the electronic device body 4), the electronic device body is further _ close to the stand 30, and provides a middle angle support position, which can be used by the user in the slide In the report, adjust the appropriate angle to remind the user to report the content, or as a touch reading and other operations. Of course, it is also possible to further move the magnetic member 1 接近 to the accommodating groove 42 _, see 帛 3C, and provide a high angle of the It position, which can be used as an electronic digital sign and a stock machine. In order to achieve the multi-angle support, if the electronic device body is composed of a non-magnetic material such as reinforced plastic, the magnetic absorbing material to be laid needs to extend to almost the entire accommodating groove 42' so that the magnetic element 1G can be transparently The position of the adsorption is changed, and the support angle of the electronic device body 40 is changed. The portion of the main block 30, because it is pivotally connected to the connecting rod 20, so that it should not be changed, can be flatly attached to the fixing plane 7〇 to provide positioning for various supporting angles, the connecting rod 20 and the magnetic ^ The location of the ground can be designed to be tightly fitted or fixed with a fixed card to provide various angles of fixation. Refer to Figure 4 for the month, which is a schematic diagram of the operation of the electronic device with the magnetic support stand 201020726. When in the support position (including various support positions in Figures 3A to 3C), the electronic device body 40 is loaded when the user operates improperly, exerts excessive force, or accidentally collides, books and other items are poured and pressed. When it is too large, since the magnetic element 10 of the back surface 41 is magnetically attracted to the electronic device, 40, instead of the conventional mechanical fixed connection, when the load exceeds between the magnetic element 10 and the electronic device body 4 When the magnetic attraction force is applied, the magnetic element Ip is released from the electronic device body 4 without causing damage or permanent damage to the link 2 or the stand 30. φ On the other hand, in order to increase the supportability of the stand, please refer to Fig. 5, which is an exploded view of another embodiment of the electronic device with a magnetic support stand of the present invention. The portion of the rack 30 includes a crossbar 31. The crossbar 31 is equivalent to the width of the electronic device body 40, and the two ends extend out of the connecting portions 32 and 33 respectively. The connecting portions 32 and 33 are respectively pivotally connected to the electronic device body. 4〇 The two sides of the bottom of the back 41. At the same time, the magnetic element 10 is in the form of a slider, and the back surface 41 of the electronic device body 4 has a sliding slot 43 so that the magnetic element 1 can slide in the sliding slot 43. Similarly, if the outer casing of the electronic device body 40 is In the case of a non-magnetic material such as a reinforced plastic, a magnetic absorbing metal is required to be laid in the chute 43. The connecting rod 20 has a thin rod shape and is connected to the magnetic member 10 and the cross bar 31 of the stand 30 by a two-end spherical shape. As shown in "Fig. 6A to 6C", it is a schematic view of the operation of the support device according to the fifth embodiment of the electronic device with the magnetic support stand of the present invention. In the stowed position, see Figure 6A, the magnetic element 1〇 is located at the far right of the chute 43. Similarly, in order to maintain the uniformity of the appearance, the connecting rod 2〇 adopts a thin rod shape while also cooperating with the chute 43 The lower extension has the same shape as the link 20 and is provided for the link 20 to maintain the flatness of the appearance. When the operation is required, the tripod 30 is turned over. At this time, the magnetic element is driven by the connecting rod 20, so that the magnetic element slides in the 201020726 chute 43, see FIG. 6' and finally slides to the chute 43 to see FIG. 6C. Therefore, in this embodiment, the angles of the various branch positions within the magnetic element slot 43 can be provided. w In order to provide the position of the thrust position, the magnetic element 1〇 or = is calculated as (four) joint or bump, positioning card point, etc. _, 1 by the magnetic element H) _' Therefore, if the electronic device bribe (4) will carry the large magnetic element (1) will also be detached, excluding the link 2G, chat%% damage © Ben Po ^ see "7A, 7B ^' is an exploded view of another embodiment of the electronic device with a magnetic branch stand of the present invention. The connecting rod 20 includes a first slider 23 and a second slider 24, first = ^ groove # 25, second驰24_固耕26 is pretending that the groove 25 = moving, so that the first slider 23 can slide relative to the second slider 24, as shown in the figure, when she replaces the electronic frame in the stowed position, by The accommodating groove 42 accommodates the magnetic element 1 〇 and the back of the yoke = the holding property of the gantry 30 to the electronic device body 40 = the component 1G moves downward in the accommodating groove 42 to change the position f $ l = will drive the tripod 30 is turned out, and the electronic device is supported. The rod 20 is composed of the first slider 23 and the second slider 24, and the position of the fit 10 is used to change the angle of selection. The block 23 and the second slider 24 are slidable relative to each other to provide a support position, and the 8B is shown in FIG. 8B; and the 'fitted member 26 is positioned by a screw type'. In the optical block with the magnetic support stand disclosed in the present invention, the magnetic device is used to adsorb the connecting rod and the trip frame to the back of the electronic device body, so that when the position is supported, When the user's operation is improper, the force is too strong, or the accidental collision, the book and other items are poured and pressed, and the like, the electronic device body is overloaded and exceeds the magnetic adsorption force between the magnetic element and the electronic device body. The magnetic component will be detached from the body of the electronic device without causing damage or permanent damage to the connecting rod or the tripod as is conventionally known. Although the present invention has been disclosed above in the preferred embodiment, It is not intended to limit the invention, and any person skilled in the art can make some modifications and refinements without departing from the spirit and scope of the invention. Therefore, the scope of protection of the present invention is defined by the appended patent application garden. The first figure is an exploded view of the electronic device with a magnetic support stand according to the present invention. FIG. 2 is a magnetic representation of the present invention. A schematic diagram of a combination of electronic devices supporting a tripod; 3A to 3C are schematic views showing a state of use of an electronic device having a magnetic support stand; FIG. 4 is a view showing an excessive load of an electronic device having a magnetic support stand according to the present invention; FIG. 5 is an exploded perspective view of another embodiment of an electronic device with a magnetic support stand according to the present invention; FIGS. 6A to 6C are diagrams showing an electronic device with a magnetic support stand according to an embodiment of FIG. FIG. 7 is an exploded perspective view of another embodiment of an electronic device with a magnetic support stand according to the present invention; and FIG. 8A to FIG. 8B is an electronic device with a magnetic support stand according to the present invention. 7 is a schematic diagram of the support position action of the embodiment of the figure. Ο
【主要元件符號說明】 10 磁性元件 20 連桿 21 第一樞轴 22 第二樞轴 23 第一滑塊 24 第二滑塊 25 溝槽 26 固定件 30 腳架 31 橫桿 32 連接部 33 連接部 40 電子裝置機體 41 背面 42 容置槽 43 滑槽 70 固定平面[Main component symbol description] 10 Magnetic component 20 Link 21 First pivot 22 Second pivot 23 First slider 24 Second slider 25 Groove 26 Fixing member 30 Tripod 31 Crossbar 32 Connection portion 33 Connection portion 40 Electronic device body 41 Back side 42 accommodating groove 43 Chute 70 Fixed plane