本新型創作是有關於一種電子裝置,且特別是有關於一種電子裝置。The present invention relates to an electronic device, and more particularly to an electronic device.
近年來,隨著科技產業日益發達,電子裝置例如筆記型電腦(notebook,NB)與平板電腦(tablet PC)等電子產品已頻繁地出現在日常生活中。In recent years, with the development of the technology industry, electronic devices such as notebooks (notebooks, NBs) and tablet PCs have frequently appeared in daily life.
現今許多筆記型電腦的設計可以使上機體由一般的閉合狀態翻轉靠合至下機體,以作為平板電腦使用。為了避免上機體在平板狀態使用時無法緊密地固定於下機體而鬆動,會在上機體與下機體內設置磁體而將上機體以磁力固定於下機體。上述的固定方式為了確保磁吸力,必須增大磁體的尺寸,使成本提升。另外,目前的磁體設置方式無法完全避免上機體與下機體的磁鐵的磁極相反,而會降低產品的生產良率。Many notebook computers are now designed to allow the upper body to be flipped from the normal closed state to the lower body for use as a tablet. In order to prevent the upper body from being loosely fixed to the lower body when it is used in the flat state, a magnet is placed in the upper body and the lower body to fix the upper body to the lower body by magnetic force. In order to secure the magnetic attraction force, the above-described fixing method must increase the size of the magnet and increase the cost. In addition, the current magnet arrangement method cannot completely avoid the magnetic poles of the magnets of the upper body and the lower body, and the production yield of the product is lowered.
本新型創作提供一種電子裝置,其可有效地增加機體之間的磁吸力並有效地固定機體的位置。The novel creation provides an electronic device that effectively increases the magnetic attraction between the bodies and effectively fixes the position of the body.
本新型創作的電子裝置包括一第一機體以及一第二機體。第一機體包括一滑軌構件、一第一磁性構件、一第一表面以及相對第一表面的一第二表面。滑軌構件設置於第一機體內並位於第一表面與第二表面之間。第一磁性構件設置於滑軌構件內,且滑軌構件包括一軌道,且第一磁性構件可轉動地沿著軌道移動。第二機體樞設於第一機體,並包括一第二磁性構件,且第二磁性構件設置於第二機體內。第二機體適於靠合至第一表面,或第二機體相對第一機體旋轉至靠合第二表面。當第二機體靠合至第一表面時,第一磁性構件受第二磁性構件吸引,沿著軌道移動至鄰近第一表面的一第一位置。當第二機體靠合至第二表面時,第一磁性構件受第二磁性構件吸引而轉動,並沿著軌道移動至鄰近第二表面的一第二位置。The electronic device created by the present invention comprises a first body and a second body. The first body includes a slide rail member, a first magnetic member, a first surface, and a second surface opposite the first surface. The rail member is disposed in the first body and located between the first surface and the second surface. The first magnetic member is disposed within the rail member and the rail member includes a track and the first magnetic member is rotatably movable along the track. The second body is pivotally disposed on the first body and includes a second magnetic member, and the second magnetic member is disposed in the second body. The second body is adapted to be coupled to the first surface, or the second body is rotated relative to the first body to abut the second surface. When the second body abuts against the first surface, the first magnetic member is attracted by the second magnetic member and moves along the track to a first position adjacent the first surface. When the second body abuts against the second surface, the first magnetic member is attracted by the second magnetic member to rotate and moves along the track to a second position adjacent to the second surface.
在本新型創作的一實施例中,上述的第一表面與軌道延伸的方向具有一非零角度。In an embodiment of the novel creation, the first surface has a non-zero angle with respect to the direction in which the track extends.
在本新型創作的一實施例中,上述的軌道延伸的方向垂直於第一表面。In an embodiment of the present invention, the direction in which the track extends is perpendicular to the first surface.
在本新型創作的一實施例中,當上述的第二機體靠合至第一表面時,第二磁性構件的一第三磁極鄰近第一表面。當第二機體靠合至第二表面時,第二磁性構件的一第四磁極鄰近第二表面。In an embodiment of the present invention, when the second body is coupled to the first surface, a third magnetic pole of the second magnetic member is adjacent to the first surface. When the second body is coupled to the second surface, a fourth magnetic pole of the second magnetic member is adjacent to the second surface.
在本新型創作的一實施例中,上述的第一磁性構件包括相對且相異的一第一磁極及一第二磁極。第二磁性構件包括相對且相異的第三磁極及第四磁極。第一磁極的磁性異於第三磁極的磁性並適於受到第三磁極的吸引並轉動面向第三磁極。In an embodiment of the present invention, the first magnetic member includes a first magnetic pole and a second magnetic pole that are opposite and different. The second magnetic member includes opposing and distinct third and fourth magnetic poles. The magnetic pole of the first magnetic pole is different from the magnetic pole of the third magnetic pole and is adapted to be attracted by the third magnetic pole and rotate to face the third magnetic pole.
在本新型創作的一實施例中,上述的電子裝置更包括一樞軸。樞軸適於樞接第一機體與第二機體。第一磁性構件與滑軌構件位於第一機體內並遠離樞軸設置。第二磁性構件位於第二機體內並遠離樞軸設置。In an embodiment of the present invention, the electronic device further includes a pivot. The pivot is adapted to pivotally connect the first body and the second body. The first magnetic member and the rail member are located within the first body and disposed away from the pivot. The second magnetic member is located within the second body and disposed away from the pivot.
在本新型創作的一實施例中,上述的第二機體靠合至第一表面或第二表面時,第二磁性構件於第一表面上的正投影完全覆蓋或局部覆蓋第一磁性構件於第一表面上的正投影。In an embodiment of the present invention, when the second body is coupled to the first surface or the second surface, the orthographic projection of the second magnetic member on the first surface completely covers or partially covers the first magnetic member. An orthographic projection on a surface.
在本新型創作的一實施例中,上述的第一機體更包括至少一非導磁片。非導磁片設置於滑軌構件的至少一末段,且當第一磁性構件沿著軌道往至少一末端移動時,與至少一非導磁片接觸。In an embodiment of the present invention, the first body further includes at least one non-magnetic conductive sheet. The non-magnetic conductive sheet is disposed on at least one end of the rail member, and is in contact with the at least one non-magnetic conductive sheet when the first magnetic member moves along the rail toward the at least one end.
在本新型創作的一實施例中,上述的第一磁性構件為圓柱體、長方體或球體。In an embodiment of the present invention, the first magnetic member is a cylinder, a rectangular parallelepiped or a sphere.
基於上述,本新型創作的電子裝置透過將第一機體內的第一磁性構件設置於滑軌構件內,使第一磁性構件可於滑軌構件內轉動並沿著軌道移動。透過將第二機體內的第二磁性構件的第三磁極設置為鄰近第一表面,當第二機體靠合至第一表面時,可轉動的第一磁性構件的第一磁極的磁性異於第三磁極的磁性,使第一磁極會受到第三磁極的吸引並轉動面向第三磁極。如此,電子裝置中的磁性構件的磁極面向可任意地配置,以提供更具有彈性的配置。進一步而言,當第二機體靠合至第一表面時,第一磁性構件會受到第二磁性構件吸引而移動至第一位置,而當第二機體靠合至第二表面時,第一磁性構件會受到第二磁性構件吸引而移動至第二位置,進而自動調整磁性構件之間的距離而增加磁力,以將第二機體吸附固定於第一機體。在上述的配置中,由於可轉動的第一磁性構件可以自動的改變面向第二磁性構件的磁性並自動的改變磁性構件之間的距離,進而達成自動改變磁極以及增強磁性的效果,進而避免磁極裝反以及磁吸力不足而加大磁鐵的問題,使電子裝置的組裝能更加的簡化並減少製作成本,更可以增加產品製造的良率。Based on the above, the electronic device of the present invention allows the first magnetic member to be rotated within the slide member and moved along the track by disposing the first magnetic member in the first body within the slide member. By disposing the third magnetic pole of the second magnetic member in the second body adjacent to the first surface, when the second body is coupled to the first surface, the magnetic property of the first magnetic pole of the rotatable first magnetic member is different from the first The magnetic properties of the three magnetic poles cause the first magnetic pole to be attracted by the third magnetic pole and rotate to face the third magnetic pole. As such, the magnetic pole faces of the magnetic members in the electronic device can be arbitrarily configured to provide a more flexible configuration. Further, when the second body is coupled to the first surface, the first magnetic member is attracted by the second magnetic member to move to the first position, and when the second body is coupled to the second surface, the first magnetic The member is attracted by the second magnetic member to move to the second position, thereby automatically adjusting the distance between the magnetic members to increase the magnetic force to adsorb and fix the second body to the first body. In the above configuration, since the rotatable first magnetic member can automatically change the magnetic property facing the second magnetic member and automatically change the distance between the magnetic members, thereby achieving the effect of automatically changing the magnetic pole and enhancing the magnetic property, thereby avoiding the magnetic pole. The problem of increasing the magnet and the lack of magnetic attraction increases the assembly of the electronic device, reduces the manufacturing cost, and increases the yield of the product.
為讓本新型創作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 present invention will become more apparent and understood from the following description.
圖1繪示為本新型創作的一實施例的一種電子裝置於開啟狀態的示意圖。圖2繪示為圖1的電子裝置於閉合狀態的局部剖面示意圖。圖3繪示為圖1的電子裝置於平板狀態的局部剖面示意圖。圖4繪示為圖1的電子裝置於半閉合狀態的局部剖面示意圖。請同時參考圖1至圖3,在本實施例中,電子裝置10可包括一第一機體100以及一第二機體200。第二機體200可樞設於第一機體100以相對第一機體100旋轉。具體而言,電子裝置10可為一筆記型電腦,第一機體100可例如為其系統端,並包括一第一表面112以及相對第一表面112的一第二表面114,而第二機體則200可例如為顯示器,並可包括一顯示面板(未繪示)以及相對顯示面板的一外表面(未標示)。第一機體100與第二機體200內分別具有內置空間以容納元件。當然,本實施例僅用以舉例說明,本新型創作並不以此為限。FIG. 1 is a schematic diagram of an electronic device in an open state according to an embodiment of the present invention. 2 is a partial cross-sectional view showing the electronic device of FIG. 1 in a closed state. 3 is a partial cross-sectional view showing the electronic device of FIG. 1 in a flat state. 4 is a partial cross-sectional view showing the electronic device of FIG. 1 in a semi-closed state. Referring to FIG. 1 to FIG. 3 , in the embodiment, the electronic device 10 can include a first body 100 and a second body 200 . The second body 200 can be pivoted to the first body 100 to rotate relative to the first body 100. Specifically, the electronic device 10 can be a notebook computer, and the first body 100 can be, for example, a system end thereof, and includes a first surface 112 and a second surface 114 opposite to the first surface 112, and the second body is 200 can be, for example, a display and can include a display panel (not shown) and an outer surface (not labeled) of the display panel. The first body 100 and the second body 200 respectively have a built-in space to accommodate the components. Of course, this embodiment is for illustrative purposes only, and the novel creation is not limited thereto.
詳細而言,電子裝置10可包括一樞軸180,以樞接第一機體100及第二機體200,使第二機體200適於相對第一機體100做近360度的翻轉,以使第二機體200可相對第一機體100旋轉於圖2所示的一閉合狀態以及如圖3所示的一平板狀態之間。當電子裝置10處於閉合狀態時,第二機體200如圖2所示的方式靠合第一機體100的第一表面112。當第二機體200相對第一機體100翻轉至電子裝置10而呈現如圖3所示之平板狀態時,第二機體200旋轉至靠合第一機體100的第二表面114,此時第二機體200的顯示面(未繪示)暴露於外以方便使用者將電子裝置10做為平板電腦使用。當然,本實施例僅用以舉例說明,在其他實施例中,第二機體200亦可作為一平板電腦,而第一機體100則可為其擴充基座,第二機體200可分離地樞設於第一機體100,以相對其旋轉。本新型創作並不限制電子裝置的種類。另外,在本實施例中,樞軸180設置於第一機體100,然而本新型創作不以此為限,於其他實施例中,樞軸180亦可以設置於第二機體200。In detail, the electronic device 10 can include a pivot 180 for pivoting the first body 100 and the second body 200 to make the second body 200 suitable for flipping about 360 degrees with respect to the first body 100, so that the second The body 200 is rotatable relative to the first body 100 between a closed state shown in FIG. 2 and a flat state as shown in FIG. When the electronic device 10 is in the closed state, the second body 200 abuts the first surface 112 of the first body 100 in the manner shown in FIG. When the second body 200 is turned over to the electronic device 10 with respect to the first body 100 to assume a flat state as shown in FIG. 3, the second body 200 is rotated to abut against the second surface 114 of the first body 100, and the second body is at this time. The display surface (not shown) of the 200 is exposed to facilitate the user to use the electronic device 10 as a tablet. Of course, the second embodiment 200 can be used as a tablet computer, and the first body 100 can be used as a docking station, and the second body 200 can be detachably pivoted. The first body 100 is rotated relative to it. This novel creation does not limit the types of electronic devices. In addition, in the present embodiment, the pivot 180 is disposed on the first body 100. However, the present invention is not limited thereto. In other embodiments, the pivot 180 may also be disposed on the second body 200.
詳細而言,第一機體100如圖1所示包括一滑軌構件140以及一第一磁性構件120。滑軌構件140設置於第一機體100內的內置空間並位於第一表面112與第二表面114之間。滑軌構件140包括一軌道142,於一實施例中,軌道142可由第二表面114往第一表面112延伸,不過本新型創作不以此為限。第一磁性構件120設置於滑軌構件140內,以可轉動地沿著軌道142移動。進一步來說,滑軌構件140包括鄰近第一表面112的一第一位置141以及鄰近第二表面114的一第二位置143,而第一磁性構件120可沿著軌道142移動至第一位置141或第二位置143。第二機體200樞設於第一機體100,並包括一第二磁性構件220,其設置於第二機體200內。第一磁性構件120面向第二磁性構件220的磁性彼此相異,也就是說,第一磁性構件120與第二磁性構件220彼此相吸。In detail, the first body 100 includes a rail member 140 and a first magnetic member 120 as shown in FIG. The rail member 140 is disposed in the built-in space in the first body 100 and located between the first surface 112 and the second surface 114. The rail member 140 includes a rail 142. In one embodiment, the rail 142 can extend from the second surface 114 to the first surface 112. However, the present invention is not limited thereto. The first magnetic member 120 is disposed within the rail member 140 to rotatably move along the rail 142. Further, the rail member 140 includes a first position 141 adjacent to the first surface 112 and a second position 143 adjacent the second surface 114, and the first magnetic member 120 is movable along the rail 142 to the first position 141 Or second position 143. The second body 200 is pivotally disposed on the first body 100 and includes a second magnetic member 220 disposed in the second body 200. The magnetic properties of the first magnetic member 120 facing the second magnetic member 220 are different from each other, that is, the first magnetic member 120 and the second magnetic member 220 are attracted to each other.
在本實施例中,當第二機體200如圖2所示之靠合至第一表面112時,第一磁性構件120受到第二磁性構件220的吸引,第一磁性構件120可沿著軌道142移動至鄰近第一表面112的第一位置141而接觸一非導磁片160。在此需說明的是,於傳統筆記型電腦的設計,會在上機體以及下機體內設置卡榫,以將下機體固定於上機體。於傳統的卡榫設計中,上機體接觸下機體時會由於實體的接合而發出對應的聲音。在本實施例中,第一機體100可選擇性地包括至少一非導磁片160,且非導磁片160設置於滑軌構件140鄰近第一位置141的一末端148a。藉此,本新型創作的電子裝置10可在非實體接合的磁吸力的固定方式下,仍然發出對應的聲音,以讓使用者得知第二機體200固定於第一機體100。但本新型創作不限於此,在其他實施例中,第一機體100也可以將非導磁片160設置於滑軌構件140鄰近第二位置143的另一末端148b、或同時將非導磁片160設置在鄰近第一位置141的一末端148a和鄰近第二位置143的另一末端148b。In the present embodiment, when the second body 200 is coupled to the first surface 112 as shown in FIG. 2, the first magnetic member 120 is attracted by the second magnetic member 220, and the first magnetic member 120 is along the track 142. Moving to a first position 141 adjacent to the first surface 112 contacts a non-magnetic conductive sheet 160. It should be noted that in the design of the traditional notebook computer, a cassette is arranged in the upper body and the lower body to fix the lower body to the upper body. In the traditional cassette design, when the upper body contacts the lower body, a corresponding sound is emitted due to the solid joint. In the embodiment, the first body 100 can selectively include at least one non-magnetic conductive sheet 160, and the non-magnetic conductive sheet 160 is disposed at an end 148a of the sliding rail member 140 adjacent to the first position 141. Therefore, the electronic device 10 of the present invention can still emit a corresponding sound in a fixed manner of the non-physical magnetic attraction, so that the user knows that the second body 200 is fixed to the first body 100. However, the novel creation is not limited thereto. In other embodiments, the first body 100 may also dispose the non-magnetic conductive sheet 160 on the other end 148b of the rail member 140 adjacent to the second position 143, or simultaneously expose the non-magnetic conductive sheet. The 160 is disposed adjacent one end 148a of the first position 141 and the other end 148b adjacent the second position 143.
請參考圖3,使用者可將第二機體200相對第一機體100翻轉至處於如圖3所示的平板狀態,使第二機體200靠合至第一機體100的第二表面114,以將電子裝置10做為平板電腦使用。此時,由於第二磁性構件220與第一磁性構件120之間的磁吸力,因而第一磁性構件120可以受第二磁性構件220的吸引而轉動,並沿著軌道142移動至鄰近第二表面114的第二位置143。此時,第一機體100的第二表面114與第二機體200因磁力彼此相吸而固定其相對位置,以維持如圖3所示的平板狀態。Referring to FIG. 3, the user can flip the second body 200 relative to the first body 100 to a flat state as shown in FIG. 3, and the second body 200 is brought into the second surface 114 of the first body 100 to The electronic device 10 is used as a tablet computer. At this time, due to the magnetic attraction between the second magnetic member 220 and the first magnetic member 120, the first magnetic member 120 may be rotated by the attraction of the second magnetic member 220 and moved along the track 142 to the adjacent second surface. The second position 143 of 114. At this time, the second surface 114 of the first body 100 and the second body 200 are fixed to each other by magnetic force to maintain their relative positions as shown in FIG.
藉此,當電子裝置10處於閉合狀態時,由於靠合至第一表面112的第二機體200的第二磁性構件220與第一磁性構件120彼此相吸而使第一磁性構件120可轉動地往鄰近第一表面112的第一位置141移動,使第一磁性構件120與第二磁性構件220彼此可以輕易地吸附,以固定第一機體100與第二機體200之間的相對位置,維持此閉合狀態。當電子裝置10處於平板狀態時,第二機體200靠合至第一機體100的第二表面114,此時,可轉動的第一磁性構件120受到第二磁性構件220的吸引而往鄰近第二表面114的第二位置143移動,因此在第二機體200因樞軸180與第一機體100產生距離差異下,仍能使第一磁性構件120與第二磁性構件220之間保持相當的磁吸力而彼此相吸,進而固定其相對位置,以維持平板狀態。Thereby, when the electronic device 10 is in the closed state, the first magnetic member 120 is rotatably caused by the second magnetic member 220 of the second body 200 that is coupled to the first surface 112 and the first magnetic member 120 are attracted to each other. Moving to the first position 141 adjacent to the first surface 112, the first magnetic member 120 and the second magnetic member 220 can be easily adsorbed to each other to fix the relative position between the first body 100 and the second body 200, maintaining this Closed state. When the electronic device 10 is in the flat state, the second body 200 is abutted to the second surface 114 of the first body 100. At this time, the rotatable first magnetic member 120 is attracted by the second magnetic member 220 to be adjacent to the second The second position 143 of the surface 114 is moved, so that the second body 200 can maintain a considerable magnetic attraction between the first magnetic member 120 and the second magnetic member 220 due to the difference in distance between the pivot 180 and the first body 100. They suck each other and fix their relative positions to maintain the flat state.
因此,本實施例藉由軌道142的設置來減少第一磁性構件120與第二磁性構件220之間的間距,使第一磁性構件120或第二磁性構件220不需透過增加其尺寸,即能增加第一磁性構件120與第二磁性構件220之間的磁吸力,而達到於閉合狀態以及平板狀態下彼此吸附的功效。因此,本實施例可以達到維持或縮小磁性構件的體積,降低生產成本,更有助於電子裝置10的薄型化。Therefore, in this embodiment, the spacing between the first magnetic member 120 and the second magnetic member 220 is reduced by the arrangement of the track 142, so that the first magnetic member 120 or the second magnetic member 220 can be increased in size without requiring transmission. The magnetic attraction between the first magnetic member 120 and the second magnetic member 220 is increased to achieve the effect of being adsorbed to each other in the closed state and in the flat state. Therefore, the present embodiment can achieve the maintenance or reduction of the volume of the magnetic member, reduce the production cost, and contribute to the thinning of the electronic device 10.
圖5繪示為本新型創作的一實施例的滑道構件的立體圖。圖6繪示為圖5的滑道構件的側視圖。請同時參考圖5及圖6,在本實施例中,滑道構件140包括一支架部144以及一主體部146。支架部144設置於主體部146上且可與主體部146為一體成型的設計,但本新型創作不以此為限,在其他實施例中,支架部144與主體部146也可以分開製作再透過組合形成滑道構件140。支架部144包括軌道142且軌道142適於承載第一磁性構件120。具體而言,第一磁性構件120包括一軸心126,軸心126設置於軌道142中,藉此第一磁性構件120可任意地在軌道142中轉動並移動。另外,在本實施例中,第一磁性構件120可以為圓柱體、長方體或球體等外形,但本新型創作不以此為限,在其他實施例中,第一磁性構件120也可以為可在軌道中轉動和移動的任何幾何形狀。FIG. 5 is a perspective view of a slide member according to an embodiment of the present invention. Figure 6 is a side elevational view of the slide member of Figure 5. Referring to FIG. 5 and FIG. 6 simultaneously, in the embodiment, the slide member 140 includes a bracket portion 144 and a main body portion 146. The bracket portion 144 is disposed on the main body portion 146 and can be integrally formed with the main body portion 146. However, the present invention is not limited thereto. In other embodiments, the bracket portion 144 and the main body portion 146 can also be separately formed and re-transmitted. The combination of the slide members 140 is formed. The bracket portion 144 includes a track 142 and the track 142 is adapted to carry the first magnetic member 120. Specifically, the first magnetic member 120 includes a shaft center 126 that is disposed in the rail 142 whereby the first magnetic member 120 can be arbitrarily rotated and moved in the rail 142. In addition, in this embodiment, the first magnetic member 120 may be in the shape of a cylinder, a rectangular parallelepiped or a sphere, but the present invention is not limited thereto. In other embodiments, the first magnetic member 120 may also be Any geometric shape that rotates and moves in the track.
值得一提的是,請參考圖4及圖6,在本實施例中,主體部146連接至第一機體100,且主體部146與第一表面112平行。軌道142的延伸方向L與第一表面112具有一非零角度A。當然,本實施例僅用以舉例說明,本新型創作並不以此為限。由於軌道142沿著非零角度A延伸,因此第一磁性構件120可以沿著軌道142往第一位置141或往第二位置143移動,以縮短第一磁性構件120與第一表面112或第二表面114的距離,進而減少第一磁性構件120與第二磁性構件220之間的間距,即能增加第一磁性構件120與第二磁性構件220之間的磁吸力。It is worth mentioning that, referring to FIG. 4 and FIG. 6 , in the embodiment, the main body portion 146 is connected to the first body 100 , and the main body portion 146 is parallel to the first surface 112 . The direction L of extension of the track 142 has a non-zero angle A with the first surface 112. Of course, this embodiment is for illustrative purposes only, and the novel creation is not limited thereto. Since the track 142 extends along the non-zero angle A, the first magnetic member 120 can move along the track 142 to the first position 141 or to the second position 143 to shorten the first magnetic member 120 with the first surface 112 or the second The distance of the surface 114, which in turn reduces the spacing between the first magnetic member 120 and the second magnetic member 220, can increase the magnetic attraction between the first magnetic member 120 and the second magnetic member 220.
請繼續參考圖2至4,在本實施例中,第一磁性構件120包括相對且相異的一第一磁極122及一第二磁極124。第二磁性構件220包括相對且相異的一第三磁極222及一第四磁極224。當電子裝置10處於如圖2所示的閉合狀態時,第二機體200內的第三磁極222會因靠合至第一表面112而鄰近第一表面112。當電子裝置10處於如圖3所示的平板狀態時,第二機體200內的第四磁極224會因靠合至第二表面114而鄰近第二表面114。由於第一磁極122的磁性相異於第三磁極222的磁性,因此第一磁極122會受到第三磁極222的吸引而轉動面向第三磁極222。2 to 4, in the embodiment, the first magnetic member 120 includes a first magnetic pole 122 and a second magnetic pole 124 that are opposite and different. The second magnetic member 220 includes a third magnetic pole 222 and a fourth magnetic pole 224 that are opposite and different. When the electronic device 10 is in the closed state as shown in FIG. 2, the third magnetic pole 222 in the second body 200 is adjacent to the first surface 112 by being coupled to the first surface 112. When the electronic device 10 is in the flat state as shown in FIG. 3, the fourth magnetic pole 224 in the second body 200 is adjacent to the second surface 114 by being coupled to the second surface 114. Since the magnetic properties of the first magnetic pole 122 are different from the magnetic properties of the third magnetic pole 222, the first magnetic pole 122 is attracted by the third magnetic pole 222 and rotates to face the third magnetic pole 222.
值得一提的是,第二機體200可逐漸地向第一表面112靠合至電子裝置10而進入如圖4所示之半閉合狀態。在本實施例中,由於第二機體200樞設於第一機體100,所以第二機體200往第一機體100的移動軌跡是弧形的,而不是直線移動的軌跡。具體而言,第二磁性構件220是以具有角度的軌跡往第一磁性構件120移動。透過可轉動的第一磁性構件120,第一磁極122可以受到第三磁極222的吸引而面向第三磁極222並往第一位置141移動。換句話說,在本實施例的配置下,第一磁性構件120的第一磁極122不論面向或背對第三磁極222,皆會被第二磁性構件220的磁場影響而轉而面向第三磁極222,進而達成自動改變磁極的效果。It is worth mentioning that the second body 200 can gradually abut the first surface 112 to the electronic device 10 to enter a semi-closed state as shown in FIG. In this embodiment, since the second body 200 is pivotally disposed on the first body 100, the movement path of the second body 200 to the first body 100 is curved instead of a linearly moving track. Specifically, the second magnetic member 220 moves toward the first magnetic member 120 in an angular trajectory. Through the rotatable first magnetic member 120, the first magnetic pole 122 can be attracted by the third magnetic pole 222 to face the third magnetic pole 222 and move toward the first position 141. In other words, in the configuration of the embodiment, the first magnetic pole 122 of the first magnetic member 120 faces the third magnetic pole 222, and is affected by the magnetic field of the second magnetic member 220 to face the third magnetic pole. 222, in turn, achieves the effect of automatically changing the magnetic pole.
當電子裝置10處於如圖3所示的平板狀態時,第二機體200靠合至第二表面114,此時,第二磁性構件200的第四磁極224會靠近第二表面114。透過可轉動的第一磁性構件120,第二磁極124可以受到第四磁極224的吸引而面向第四磁極224並往第二位置143移動,進而達成自動改變磁極的效果。When the electronic device 10 is in the flat state as shown in FIG. 3, the second body 200 abuts against the second surface 114, and at this time, the fourth magnetic pole 224 of the second magnetic member 200 approaches the second surface 114. Through the rotatable first magnetic member 120, the second magnetic pole 124 can be attracted by the fourth magnetic pole 224 to face the fourth magnetic pole 224 and move to the second position 143, thereby achieving the effect of automatically changing the magnetic pole.
更詳細而言,請參考圖2至圖4,在本實施例中,第二磁性構件220的寬度W2可以大於第一磁性構件120的寬度W1,且當第二機體200靠合至第一表面112或第二表面114時,第二磁性構件220於第一表面112上的正投影完全覆蓋或局部覆蓋第一磁性構件120於第一表面112上的正投影。由於習知的機體軸心的設置方式,於翻轉時會產生對位移動的差距,因此將相較於第一機體100具有較多餘裕空間的第二機體200內的第二磁性構件220的寬度W2設置為大於第一磁性構件120的寬度W1,藉此確保第一磁性構件120與第二磁性構件220之間可有部份重疊,進一步的加強第一磁性構件120與第二磁性構件220彼此之間的磁吸力。In more detail, referring to FIG. 2 to FIG. 4 , in the embodiment, the width W2 of the second magnetic member 220 may be greater than the width W1 of the first magnetic member 120, and when the second body 200 is coupled to the first surface The 112 or second surface 114, the orthographic projection of the second magnetic member 220 on the first surface 112 completely covers or partially covers the orthographic projection of the first magnetic member 120 on the first surface 112. Due to the conventional arrangement of the axis of the body, the gap of the alignment movement occurs when the body is turned over, so that the width of the second magnetic member 220 in the second body 200 having a more marginal space than the first body 100 is provided. W2 is set to be larger than the width W1 of the first magnetic member 120, thereby ensuring partial overlap between the first magnetic member 120 and the second magnetic member 220, further enhancing the first magnetic member 120 and the second magnetic member 220 from each other The magnetic attraction between.
此外,第二磁性構件220在寬度W2均分為兩等份之處有一法線T,且法線T可定義出第二磁性構件220的一中心。當電子裝置10在閉合狀態或平板狀態時,第一磁性構件120的軸心126與定義出第二磁性構件220中心的法線T不重疊,且第一磁性構件120位於法線T的兩側中的其中之一側。因此,第二磁性構件220的法線T不會與軌道142的延伸方向L重疊。換句話說,不論電子裝置10處於閉合狀態、半閉合狀態或平板狀態,第一磁性構件120的軸心126於第一表面112上的正投影會偏離第二磁性構件220中心於第一表面112上的正投影。因此,第一磁性構件120不會位於第二磁性構件220的法線T的正下方此外,更由於軌道142延伸的方向L與第一表面112具有非零角度A,且軌道142延伸的方向L與法線T不會重疊,進一步確保第一磁性構件120可受到第二磁性構件220的吸引而轉動,進而達成自動改變磁極的效果。Further, the second magnetic member 220 has a normal T at a width W2 equally divided into two equal portions, and the normal T defines a center of the second magnetic member 220. When the electronic device 10 is in the closed state or the flat state, the axis 126 of the first magnetic member 120 does not overlap with the normal T defining the center of the second magnetic member 220, and the first magnetic member 120 is located on both sides of the normal T One of the sides. Therefore, the normal T of the second magnetic member 220 does not overlap with the extending direction L of the track 142. In other words, regardless of whether the electronic device 10 is in the closed state, the semi-closed state, or the flat state, the orthographic projection of the axis 126 of the first magnetic member 120 on the first surface 112 may deviate from the second magnetic member 220 at the center of the first surface 112. Orthographic projection on. Therefore, the first magnetic member 120 is not located directly below the normal T of the second magnetic member 220. Further, since the direction L in which the track 142 extends has a non-zero angle A with the first surface 112, and the direction L in which the track 142 extends It does not overlap with the normal T, and further ensures that the first magnetic member 120 can be rotated by the attraction of the second magnetic member 220, thereby achieving the effect of automatically changing the magnetic pole.
請參考圖2至圖4,在本實施例中,第一磁性構件120與滑軌構件140位於第一機體100內遠離樞軸180設置,且第二磁性構件220位於第二機體200內並遠離樞軸180設置。藉此,第一磁性構件120與第二磁性構件220可以分別設置於第一機體100以及第二機體200位於邊緣的區域內,有效的利用內置空間。此外,在本實施例的配置中,磁性構件可以遠離樞軸180,使得使用者可以施加較小的力量來將第二機體200自其與第一機體100之間的磁吸力分離。另外,本新型創作不特別限制第一磁性構件120與第二磁性構件220的磁力。舉例而言,在本實施例中,第一磁性構件120的磁力可大於、等於或小於第二磁性構件220的磁力。Referring to FIG. 2 to FIG. 4 , in the embodiment, the first magnetic member 120 and the rail member 140 are located in the first body 100 away from the pivot 180 , and the second magnetic member 220 is located in the second body 200 and away from the second body 200 . The pivot 180 is set. Thereby, the first magnetic member 120 and the second magnetic member 220 can be respectively disposed in the region where the first body 100 and the second body 200 are located at the edge, and the built-in space can be effectively utilized. Moreover, in the configuration of the present embodiment, the magnetic member can be remote from the pivot 180 such that a user can apply less force to separate the second body 200 from its magnetic attraction with the first body 100. In addition, the present creation does not particularly limit the magnetic forces of the first magnetic member 120 and the second magnetic member 220. For example, in the present embodiment, the magnetic force of the first magnetic member 120 may be greater than, equal to, or smaller than the magnetic force of the second magnetic member 220.
因此,本實施例的電子裝置10的第一磁性構件120會受到第二磁性構件220的磁場吸引,使得第一磁性構件120的磁極可受到第二磁性構件220的磁極吸引而轉動,進而達成自動改變第一磁性構件120的磁極的效果。亦即,第二磁性構件220的磁極可任意地安裝至第二機體200中,仍可以透過磁力吸引第一磁性構件120的磁極轉動面對第二磁極構件220,進而提供更具有彈性的配置以及避免磁極裝反的問題,以此簡化製程並增加產品製造的良率。Therefore, the first magnetic member 120 of the electronic device 10 of the present embodiment is attracted by the magnetic field of the second magnetic member 220, so that the magnetic pole of the first magnetic member 120 can be attracted by the magnetic pole of the second magnetic member 220, thereby achieving automatic The effect of the magnetic pole of the first magnetic member 120 is changed. That is, the magnetic pole of the second magnetic member 220 can be arbitrarily mounted into the second body 200, and the magnetic pole of the first magnetic member 120 can still be magnetically attracted to face the second magnetic pole member 220, thereby providing a more flexible configuration and Avoid the problem of magnetic poles reverse, which simplifies the process and increases the yield of product manufacturing.
圖7繪示為本新型創作的另一實施例的一種電子裝置於閉合狀態的示意圖。在此必須說明的是,圖7的電子裝置10a與圖1至圖4的電子裝置10相似,因此,本實施例沿用前述實施例的元件標號與部分內容,其中採用相同的標號來表示相同或近似的元件,並且省略了相同技術內容的說明。關於省略部分的說明可參考前述實施例,本實施例不再重複贅述。請參照圖7,以下將針對本實施例的電子裝置10a與圖1至圖4的電子裝置10的差異做說明。FIG. 7 is a schematic diagram of an electronic device in a closed state according to another embodiment of the present invention. It should be noted that the electronic device 10a of FIG. 7 is similar to the electronic device 10 of FIG. 1 to FIG. 4, and therefore, the present embodiment uses the same reference numerals and parts as those of the foregoing embodiments, wherein the same reference numerals are used to indicate the same or Approximate elements, and the description of the same technical content is omitted. For the description of the omitted part, reference may be made to the foregoing embodiment, and the description is not repeated herein. Referring to FIG. 7, the differences between the electronic device 10a of the present embodiment and the electronic device 10 of FIGS. 1 to 4 will be described below.
在本實施例中,滑軌構件140的軌道142a的延伸方向La垂直於第一表面112。換句話說,軌道142a的延伸方向La與第一表面112之間的角度A’為90度。由於第二機體200樞設於第一機體100,所以第二機體200往第一機體100的移動軌跡是弧形的,而以具有角度的軌跡往第一磁性構件120移動。在本實施例的配置下,當第二機體200靠合至第一表面112時,第二機體200內的第二磁性構件220仍可以吸引第一磁性構件120並使磁性相異的磁極轉動而面向彼此並移動至第一位置141,進而達成自動改變磁極以及自動改變磁性構件之間的距離的效果。In the present embodiment, the extending direction La of the rail 142a of the rail member 140 is perpendicular to the first surface 112. In other words, the angle A' between the extending direction La of the track 142a and the first surface 112 is 90 degrees. Since the second body 200 is pivotally disposed on the first body 100, the movement path of the second body 200 to the first body 100 is curved, and moves to the first magnetic member 120 with an angular trajectory. In the configuration of the embodiment, when the second body 200 is coupled to the first surface 112, the second magnetic member 220 in the second body 200 can still attract the first magnetic member 120 and rotate the magnetic poles of different magnetic properties. Facing each other and moving to the first position 141, an effect of automatically changing the magnetic poles and automatically changing the distance between the magnetic members is achieved.
綜上所述,本新型創作的電子裝置透過滑軌構件以及可轉動地第一磁性構件的設置,使第一機體的第一磁性構件可於滑軌構件的軌道內移動,並透過將第一磁性構件移動至鄰近第一表面的第一位置或鄰近第二表面的第二位置來縮短第一磁性構件與第二機體的第二磁性構件之間的間距。如此,第一磁性構件可以自動調整磁性構件之間的距離而達成不透過增加磁性構件尺寸,即能增加磁性構件之間的磁吸力,此外更可以達到維持或縮小磁性構件的體積,進而降低生產成本,更有助於電子裝置的薄型化需求。進一步而言,第一磁性構件會受到第二磁性構件的磁力的吸引而轉動,如此,電子裝置中的磁性構件的磁極面向可任意地配置,以提供更具有彈性的配置。並且,由於可轉動的第一磁性構件可以透過轉動將異於第二磁性構件的磁極面向第二磁性構件,進而可以達成自動改變第一磁性構件的磁極的效果。因此,本新型創作的電子裝置可以達成自動改變磁性構件的間距以及自動改變磁極的效果,進而可以提升磁力構件之間的磁吸力以及避免磁極裝反的問題,使電子裝置的組裝能更加的簡化並減少磁性構件的尺寸,以降低製作成本,更可以增加產品製造的良率。In summary, the electronic device created by the present invention allows the first magnetic member of the first body to move within the track of the slide member through the arrangement of the slide rail member and the rotatably first magnetic member, and transmits the first through The magnetic member moves to a first position adjacent to the first surface or a second position adjacent to the second surface to shorten a spacing between the first magnetic member and the second magnetic member of the second body. In this way, the first magnetic member can automatically adjust the distance between the magnetic members to achieve the non-transmission of the magnetic member, that is, the magnetic attraction between the magnetic members can be increased, and the volume of the magnetic member can be maintained or reduced, thereby reducing the production. The cost is more conducive to the thinning requirements of electronic devices. Further, the first magnetic member is rotated by the attraction of the magnetic force of the second magnetic member, and thus, the magnetic pole faces of the magnetic members in the electronic device can be arbitrarily arranged to provide a more elastic configuration. Moreover, since the rotatable first magnetic member can transmit the magnetic pole different from the second magnetic member to the second magnetic member by the rotation, the effect of automatically changing the magnetic pole of the first magnetic member can be achieved. Therefore, the electronic device created by the present invention can achieve the effect of automatically changing the spacing of the magnetic members and automatically changing the magnetic poles, thereby improving the magnetic attraction between the magnetic members and avoiding the problem of the magnetic poles being reversed, thereby simplifying the assembly of the electronic device. The size of the magnetic member is reduced to reduce the manufacturing cost, and the yield of the product can be increased.
雖然本新型創作已以實施例揭露如上,然其並非用以限定本新型創作,任何所屬技術領域中具有通常知識者,在不脫離本新型創作的精神和範圍內,當可作些許的更動與潤飾,故本新型創作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 novel creation, and any person skilled in the art can make some changes without departing from the spirit and scope of the novel creation. Retouching, the scope of protection of this new creation is subject to the definition of the scope of the patent application attached.
10、10a‧‧‧電子裝置
100‧‧‧第一機體
112‧‧‧第一表面
114‧‧‧第二表面
120‧‧‧第一磁性構件
122‧‧‧第一磁極
124‧‧‧第二磁極
126‧‧‧軸心
140‧‧‧滑道構件
141‧‧‧第一位置
142、142a‧‧‧軌道
143‧‧‧第二位置
144‧‧‧支架部
146‧‧‧主體部
148a、148b‧‧‧末端
160‧‧‧非導磁片
180‧‧‧樞軸
200‧‧‧第二機體
220‧‧‧第二磁性構件
222‧‧‧第三磁極
224‧‧‧第四磁極
A、A’‧‧‧非零角度
L、La‧‧‧軌道的延伸方向
T‧‧‧法線
W1、W2‧‧‧寬度10, 10a‧‧‧ electronic devices
100‧‧‧First body
112‧‧‧ first surface
114‧‧‧ second surface
120‧‧‧First magnetic component
122‧‧‧First magnetic pole
124‧‧‧Second magnetic pole
126‧‧‧Axis
140‧‧‧Slide components
141‧‧‧ first position
142, 142a‧‧ track
143‧‧‧second position
144‧‧‧ bracket
146‧‧‧ Main body
End of 148a, 148b‧‧
160‧‧‧Non-magnetic sheet
180‧‧‧ pivot
200‧‧‧Second body
220‧‧‧Second magnetic component
222‧‧‧ third magnetic pole
224‧‧‧fourth magnetic pole
A, A'‧‧‧ non-zero angle
L, La‧‧‧ extension of the track
T‧‧‧ normal
W1, W2‧‧‧ width
圖1繪示為本新型創作的一實施例的一種電子裝置於開啟狀態的示意圖。 圖2繪示為圖1的電子裝置於閉合狀態的局部剖面示意圖。 圖3繪示為圖1的電子裝置於平板狀態的局部剖面示意圖。 圖4繪示為圖1的電子裝置於半閉合狀態的局部剖面示意圖。 圖5繪示為本新型創作的一實施例的滑道構件的立體圖。 圖6繪示為圖5的滑道構件的側視圖。 圖7繪示為本新型創作的另一實施例的一種電子裝置於閉合狀態的示意圖。FIG. 1 is a schematic diagram of an electronic device in an open state according to an embodiment of the present invention. 2 is a partial cross-sectional view showing the electronic device of FIG. 1 in a closed state. 3 is a partial cross-sectional view showing the electronic device of FIG. 1 in a flat state. 4 is a partial cross-sectional view showing the electronic device of FIG. 1 in a semi-closed state. FIG. 5 is a perspective view of a slide member according to an embodiment of the present invention. Figure 6 is a side elevational view of the slide member of Figure 5. FIG. 7 is a schematic diagram of an electronic device in a closed state according to another embodiment of the present invention.
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| TW106217260UTWM558387U (en) | 2017-11-21 | 2017-11-21 | Electronic device |
| CN201721725614.1UCN207457929U (en) | 2017-11-21 | 2017-12-12 | Electronic device |
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| TW106217260UTWM558387U (en) | 2017-11-21 | 2017-11-21 | Electronic device |
| Publication Number | Publication Date |
|---|---|
| TWM558387Utrue TWM558387U (en) | 2018-04-11 |
| Application Number | Title | Priority Date | Filing Date |
|---|---|---|---|
| TW106217260UTWM558387U (en) | 2017-11-21 | 2017-11-21 | Electronic device |
| Country | Link |
|---|---|
| CN (1) | CN207457929U (en) |
| TW (1) | TWM558387U (en) |
| Publication number | Publication date |
|---|---|
| CN207457929U (en) | 2018-06-05 |
| Publication | Publication Date | Title |
|---|---|---|
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