TWI789919B

TWI789919B - Vertical electronic device

Info

Publication number: TWI789919B
Application number: TW110135491A
Authority: TW
Inventors: 朱書賢; 葉王鴻; 方信傑; 江仁鈺
Original assignee: 仁寶電腦工業股份有限公司
Priority date: 2021-09-24
Filing date: 2021-09-24
Publication date: 2023-01-11
Also published as: TW202314155A

Abstract

A vertical electronic device including a first body, a driving structure, a second body, and a display body is provided. the first body has a first surface and a bottom end. The driving structure is disposed in the first body. The second body is pivotably connected to the first body and is connected to the driving structure. The display body is slidably disposed on the first surface of the first body and is connected to driving structure. The bottom end of the first body is adapted to place on an exterior plane, the second body is adapted to be rotated relative to the first body around a first axial direction for switching to an unfolding mode or a closed mode. The second body drives the display body to slide along the first body by the driving structure for adjusting a distance between the display body and the exterior plane.

Description

直立式電子裝置stand-up electronic device

本發明是有關於一種電子裝置，且特別是有關於一種能調整顯示器高度的直立式電子裝置。 The present invention relates to an electronic device, and in particular to an upright electronic device capable of adjusting the height of a display.

現有的筆記型電腦由邏輯機體、顯示機體與樞軸結構所組成，邏輯機體與顯示機連接於樞軸結構而適於相互展開或相互閉合，當然筆記型電腦切換為使用狀態時，顯示機體自邏輯機體展開以面向使用者。筆記型電腦通常是擺放在桌面，現有筆記型電腦的顯示機體無法相對邏輯機體抬升以調整距離，因此使用者需彎曲頸部，以將視角對準顯示機體，再搭配鍵盤與滑鼠的操作。因此，現有筆記型電腦在長時間的操作過程中，容易造成頸部的緊繃，也連帶造成肘部與肩膀的肌肉使用過度而容易疲勞，此類情形對於身形高大者的影響越是明顯。因此開發出一種筆記型電腦，用以改善使用者在操作過程中，容易產生肌肉緊繃的缺點，是重要的發展目標。 Existing notebook computers are composed of a logic body, a display body, and a pivot structure. The logic body and the display body are connected to the pivot structure and are suitable for mutual expansion or mutual closure. Of course, when the notebook computer is switched to the use state, the display body automatically The logical body unfolds to face the user. Notebooks are usually placed on the table. The display body of the existing notebook computer cannot be raised relative to the logic body to adjust the distance. Therefore, the user needs to bend the neck to align the viewing angle with the display body, and then operate the keyboard and mouse. . Therefore, during the long-term operation of the existing notebook computer, it is easy to cause the tension of the neck, and it also causes the muscles of the elbow and shoulder to be overused and easily fatigued. The impact of this kind of situation is more obvious for tall people. . Therefore, it is an important development goal to develop a notebook computer to improve the shortcoming that users are prone to muscle tension during operation.

本發明提供一種直立式電子裝置，在切換為閉闔模式與展開模式的過程中能穩固地放置於平面，且適於同步調整顯示機體相對於平面的距離，藉此配合使用者的視角以改善頸部不適的缺點。 The present invention provides an upright electronic device, which can be stably placed on a plane during switching between a closed mode and an unfolded mode, and is suitable for synchronously adjusting the distance of the display body relative to the plane, thereby improving the user's viewing angle. Disadvantages of neck discomfort.

本發明的直立式電子裝置，包括一第一機體、一驅動結構、一第二機體以及一顯示機體。第一機體具有一第一表面及一底端。驅動結構配置於第一機體。第二機體樞接於第一機體且連接驅動結構。顯示機體可滑動地配置在第一機體的第一表面且連接驅動結構。第一機體的底端適於放置於一外部平面，第二機體適於相對第一機體繞一第一軸向旋轉以切換為展開模式或閉闔模式，第二機體透過驅動結構帶動顯示機體沿著第一機體滑動，以調整顯示機體與外部平面之間的一距離。 The vertical electronic device of the present invention includes a first body, a driving structure, a second body and a display body. The first body has a first surface and a bottom end. The driving structure is configured on the first body. The second body is pivoted to the first body and connected to the driving structure. The display body is slidably arranged on the first surface of the first body and connected to the driving structure. The bottom end of the first body is suitable for placing on an external plane, the second body is suitable for rotating relative to the first body around a first axis to switch to the expanded mode or the closed mode, and the second body drives the display body along the sliding along the first body to adjust a distance between the display body and the external plane.

基於上述，在本發明的直立式電子裝置中，第一機體的底端放置於外部平面，而呈現為站立狀態，其中顯示機體可滑動地配置在第一機體，使用者適於透過外力帶動第二機體相對第一機體旋轉以切換為展開模式或閉闔模式。在展開模式下，第二機體藉由驅動結構同步帶動顯示機體沿著第一機體滑動，以增加顯示機體相對於外部平面的距離，以符合使用者的觀看視角。在閉闔模式下，第二機體藉由驅動結構同步帶動顯示機體沿著第一機體滑動，以縮減顯示機體相對於外部平面的距離，達成收納之目的。 Based on the above, in the upright electronic device of the present invention, the bottom end of the first body is placed on an external plane to present a standing state, wherein the display body is slidably arranged on the first body, and the user is suitable for driving the second body through an external force. The second body rotates relative to the first body to switch to an unfolded mode or a closed mode. In the unfolded mode, the second body synchronously drives the display body to slide along the first body through the driving structure, so as to increase the distance between the display body and the external plane to meet the viewing angle of the user. In the closed mode, the second body synchronously drives the display body to slide along the first body through the driving structure, so as to reduce the distance between the display body and the external plane to achieve the purpose of storage.

100、100A、100B、100C:直立式電子裝置 100, 100A, 100B, 100C: Upright Electronics

110、110a、110b、110c:第一機體 110, 110a, 110b, 110c: first body

120、120a、120b:驅動結構 120, 120a, 120b: driving structure

121:卡扣件 121: Fasteners

121a:齒條 121a: Rack

1211:傘形齒盤 1211: Bevel gear

1212:卡接部 1212:Clamping part

122:限位柱 122: limit column

123:卡榫 123: tenon

124:彈性件 124: Elastic parts

130、130a、130b、130c:第二機體 130, 130a, 130b, 130c: second body

131:傘形齒輪 131: bevel gear

131a:齒輪 131a: gear

140、140a、140b:顯示機體 140, 140a, 140b: display body

150:第一感測模組 150: The first sensing module

151:第一接點 151: first contact

152:第二接點 152: Second contact

153:第三接點 153: The third contact

154:第四接點 154: The fourth contact

160:處理單元 160: processing unit

170:第二感測模組 170: Second sensing module

180:功能單元 180: Functional unit

190:支架 190: Bracket

B:底部 B: bottom

G:凹槽 G: Groove

P:外部平面 P: External plane

X:第一軸向 X: the first axis

Y:第二軸向 Y: the second axis

Z:第三軸向 Z: the third axis

BE:底端 BE: bottom end

CA:夾角 CA: included angle

D1:第一方向 D1: the first direction

D2:第二方向 D2: Second direction

S1:第一表面 S1: first surface

S2:第二表面 S2: second surface

PT:部位 PT: part

SP:預設區域 SP: preset area

T1:逆時針方向 T1: counterclockwise

T2:順時針方向 T2: clockwise

TE:頂端 TE: top

VH:距離 VH: Distance

圖1A是本發明一實施例的直立式電子裝置在閉闔模式下的側視示意圖。 FIG. 1A is a schematic side view of an upright electronic device in a closed mode according to an embodiment of the present invention.

圖1B是圖1A的直立式電子裝置在展開模式下的側視示意圖。 FIG. 1B is a schematic side view of the upright electronic device in FIG. 1A in an unfolded mode.

圖1C是圖1A的直立式電子裝置在訊息模式下的側視示意圖。 FIG. 1C is a schematic side view of the vertical electronic device in FIG. 1A in a message mode.

圖1D至圖1F是圖1A的直立式電子裝置從閉闔模式切換為展開模式的平面動作示意圖。 FIG. 1D to FIG. 1F are planar action diagrams of switching from the closed mode to the unfolded mode of the upright electronic device in FIG. 1A .

圖2是圖1A的直立式電子正視裝置的電路方塊示意圖。 FIG. 2 is a schematic circuit block diagram of the vertical electronic front view device in FIG. 1A .

圖3A是本發明另一實施例的直立式電子裝置在閉闔模式下的側視示意圖。 3A is a schematic side view of an upright electronic device in a closed mode according to another embodiment of the present invention.

圖3B是圖3A的直立式電子裝置在展開模式下的側視示意圖。 FIG. 3B is a schematic side view of the upright electronic device in FIG. 3A in a unfolded mode.

圖4A是本發明再一實施例的直立式電子裝置在閉闔模式下的側視示意圖。 4A is a schematic side view of an upright electronic device in a closed mode according to another embodiment of the present invention.

圖4B是圖4A的直立式電子裝置在展開模式下的側視示意圖。 FIG. 4B is a schematic side view of the upright electronic device in FIG. 4A in a unfolded mode.

圖5是本發明另一實施例的直立式電子裝置在展開模式下的側視示意圖。 FIG. 5 is a schematic side view of an upright electronic device in an unfolded mode according to another embodiment of the present invention.

圖6是本發明另一實施例的直立式電子裝置在展開模式下的側視示意圖。 FIG. 6 is a view of an upright electronic device according to another embodiment of the present invention in unfolded mode. Side view schematic.

圖1A是本發明一實施例的直立式電子裝置在閉闔模式下的側視示意圖。圖1B是圖1A的直立式電子裝置在展開模式下的側視示意圖。圖1C是圖1A的直立式電子裝置在訊息模式下的側視示意圖。圖1D至圖1F是圖1A的直立式電子裝置從閉闔模式切換為展開模式的平面動作示意圖。圖2是圖1A的直立式電子裝置的電路方塊示意圖。 FIG. 1A is a schematic side view of an upright electronic device in a closed mode according to an embodiment of the present invention. FIG. 1B is a schematic side view of the upright electronic device in FIG. 1A in an unfolded mode. FIG. 1C is a schematic side view of the vertical electronic device in FIG. 1A in a message mode. FIG. 1D to FIG. 1F are planar action diagrams of switching from the closed mode to the unfolded mode of the upright electronic device in FIG. 1A . FIG. 2 is a schematic circuit block diagram of the stand-type electronic device in FIG. 1A .

參考圖1A及圖1B，本發明的直立式電子裝置100，包括一第一機體110、一驅動結構120、一第二機體130以及一顯示機體140。其中，本實施例的直立式電子裝置例如是筆記型電腦、桌上型電腦或是其它類似的電子產品。 Referring to FIG. 1A and FIG. 1B , the vertical electronic device 100 of the present invention includes a first body 110 , a driving structure 120 , a second body 130 and a display body 140 . Wherein, the upright electronic device in this embodiment is, for example, a notebook computer, a desktop computer or other similar electronic products.

第一機體110具有一第一表面S1、一頂端TE以及一底端BE且例如是邏輯機體。驅動結構120配置於第一機體110。第二機體130連接驅動結構120，此說明第二機體130，其中，第二機體130包括鍵盤。顯示機體140可滑動地配置在第一機體110的第一表面S1且連接驅動結構120，其中顯示機體140例如是顯示面板或是觸控面板。 The first body 110 has a first surface S1 , a top TE and a bottom BE and is, for example, a logic body. The driving structure 120 is configured on the first body 110 . The second body 130 is connected to the driving structure 120 , which illustrates the second body 130 , wherein the second body 130 includes a keyboard. The display body 140 is slidably disposed on the first surface S1 of the first body 110 and connected to the driving structure 120 , wherein the display body 140 is, for example, a display panel or a touch panel.

參考圖1A及圖1B，第一機體110的底端BE適於放置於一外部平面P而呈現為直立形式。第二機體130適於相對第一機體110旋轉以切換為展開模式或閉闔模式，第二機體130透過驅動結構120帶動顯示機體140沿著第一機體110滑動，以調整顯示機體140與外部平面P之間的一距離VH。 Referring to FIG. 1A and FIG. 1B , the bottom BE of the first body 110 is adapted to be placed on an external plane P to present an upright form. The second body 130 is suitable for rotating relative to the first body 110 to switch to the unfolded mode or the closed mode, and the second body 130 drives The moving structure 120 drives the display body 140 to slide along the first body 110 to adjust a distance VH between the display body 140 and the external plane P. As shown in FIG.

參考圖1A及圖1B，當第二機體130從閉闔模式切換為展開模式時，第二機體130展開於第一機體110且遠離第一表面S1，第二機體130與第一機體110之間形成的一夾角CA的角度漸增，且第二機體130透過驅動結構120帶動顯示機體140沿著第一機體110朝一第一方向D1滑動且顯示機體140突伸於第一機體110的頂端TE，顯示機體140與第一機體110為部份交疊。其中，第一方向D1垂直於第一軸向X，第一機體110的頂端TE相對於底端BE。詳細而言，在展開模式下，顯示機體140與外部平面P之間的距離VH增加以利於使用者的觸控操作與觀看。 1A and 1B, when the second body 130 is switched from the closed mode to the expanded mode, the second body 130 is deployed on the first body 110 and away from the first surface S1, between the second body 130 and the first body 110 The formed angle CA gradually increases, and the second body 130 drives the display body 140 to slide along the first body 110 in a first direction D1 through the driving structure 120 and the display body 140 protrudes from the top TE of the first body 110, The display body 140 is partially overlapped with the first body 110 . Wherein, the first direction D1 is perpendicular to the first axis X, and the top end TE of the first body 110 is opposite to the bottom end BE. In detail, in the expanded mode, the distance VH between the display body 140 and the external plane P is increased to facilitate the user's touch operation and viewing.

參考圖1A，當第二機體130從展開模式時切換為閉闔模式時，第二機體130朝第一機體110第一表面S1閉闔，第二機體130與第一機體110之間形成的夾角CA的角度漸減，且第二機體130透過驅動結構120帶動顯示機體140沿著第一機體110朝相反於第一方向D1的一第二方向D2滑動且顯示機體140齊平於第一機體110的頂端TE，顯示機體140交疊於第一機體110與第二機體130之間。詳細而言，在閉闔模式下，顯示機體140與外部平面P之間的距離VH縮減，且顯示機體140、第一機體110與第二機體130相互交疊以利於收納。 Referring to FIG. 1A, when the second body 130 is switched from the expanded mode to the closed mode, the second body 130 is closed toward the first surface S1 of the first body 110, and the angle formed between the second body 130 and the first body 110 is The angle of CA gradually decreases, and the second body 130 drives the display body 140 to slide along the first body 110 in a second direction D2 opposite to the first direction D1 through the driving structure 120 and the display body 140 is flush with the first body 110 The top TE shows that the body 140 overlaps between the first body 110 and the second body 130 . In detail, in the closed mode, the distance VH between the display body 140 and the external plane P is reduced, and the display body 140 , the first body 110 and the second body 130 overlap each other to facilitate storage.

參考圖1A及圖1B，顯示機體140是沿著第三軸向Z在第一機體110上滑動，以調整顯示機體140與外部平面P之間在第三軸向Z上的距離VH。第一方向D1沿著第三軸向Z遠離外部平面P，且第二方向D2是沿著第三軸向Z靠近外部平面P。 Referring to FIG. 1A and FIG. 1B , the display body 140 slides on the first body 110 along the third axis Z to adjust the distance between the display body 140 and the external plane P. The distance VH on the third axis Z. The first direction D1 is away from the outer plane P along the third axis Z, and the second direction D2 is closer to the outer plane P along the third axis Z.

補充而言，在閉闔模式下，由於第一機體110的底端BE占據外部平面P的面積較小，故能節省收納空間。 In addition, in the closed mode, since the bottom BE of the first body 110 occupies a small area of the outer plane P, the storage space can be saved.

參考圖1A、圖1B及圖1D，驅動結構120具有一卡扣件121、一限位柱122、一卡榫123以及一彈性件124。 Referring to FIG. 1A , FIG. 1B and FIG. 1D , the driving structure 120 has a buckle 121 , a limiting post 122 , a tenon 123 and an elastic member 124 .

卡扣件121樞接於第一機體110且耦接第二機體130。限位柱122固設於第一機體110中，以提供一升降路徑。卡榫123可滑動地套設於限位柱122且連接顯示機體140，其中卡榫123適於沿著限位柱122升降以帶動顯示機體140。彈性件124套設於限位柱122且分別抵靠卡榫123與限位柱122的一底部B。於較佳實施例中，彈性件可為壓簧。 The buckle 121 is pivotally connected to the first body 110 and coupled to the second body 130 . The limiting column 122 is fixedly installed in the first body 110 to provide a lifting path. The tenon 123 is slidably sleeved on the limiting column 122 and connected to the display body 140 , wherein the tenon 123 is adapted to move up and down along the limiting column 122 to drive the display body 140 . The elastic member 124 is sheathed on the limiting post 122 and abuts against the tenon 123 and a bottom B of the limiting post 122 respectively. In a preferred embodiment, the elastic member can be a compression spring.

配合參圖1D及圖1E，第二機體130適於帶動卡扣件121，當第二機體130繞第一軸向X相對第一機體110旋轉以切換為展開模式或閉闔模式時，卡扣件121繞第二軸向Y相對第一機體110朝逆時針方向T1樞轉以分離於卡榫123(見圖1E)或朝順時針方向T2樞轉以扣合於卡榫123(見圖1D)。 Referring to FIG. 1D and FIG. 1E , the second body 130 is suitable for driving the buckle 121. When the second body 130 rotates around the first axis X relative to the first body 110 to switch to the unfolded mode or the closed mode, the buckle The member 121 pivots in the counterclockwise direction T1 relative to the first body 110 around the second axis Y to separate from the tenon 123 (see FIG. 1E ), or pivots in the clockwise direction T2 to engage with the tenon 123 (see FIG. 1D ).

參考圖1B、圖1E及圖1F，當卡扣件121朝逆時針方向T1樞轉並分離於卡榫123時，彈性件124推動卡榫123沿著限位柱122滑動，同時卡榫123帶動顯示機體140沿著第一機體110朝第一方向D1滑動且顯示機體140突伸於第一機體110的頂端TE。 1B, FIG. 1E and FIG. 1F, when the buckle 121 pivots in the counterclockwise direction T1 and separates from the tenon 123, the elastic member 124 pushes the tenon 123 to slide along the limit post 122, and the tenon 123 drives The display body 140 slides along the first body 110 toward the first direction D1 and the display body 140 protrudes from the top TE of the first body 110 .

參考圖1A及圖1D，當卡榫123沿著限位柱122滑動並壓縮彈性件124且卡扣件121朝順時針方向T2樞轉並扣合於卡榫123時，同時卡榫123帶動顯示機體140沿著第一機體110朝第二方向D2滑動且顯示機體140齊平於第一機體110的頂端TE，顯示機體140交疊於第一機體110與第二機體130之間。 1A and 1D, when the tenon 123 slides along the limiting column 122 and compresses the elastic member 124 and the buckle 121 pivots in the clockwise direction T2 and is engaged with the tenon 123, at the same time the tenon 123 drives the display The body 140 slides along the first body 110 toward the second direction D2 and the display body 140 is flush with the top TE of the first body 110 , and the display body 140 overlaps between the first body 110 and the second body 130 .

詳細而言，第二機體130具有一傘形齒輪131，卡扣件121具有一傘形齒盤1211，傘形齒輪131與傘形齒盤1211為相互嚙合。第二機體130的傘形齒輪131適於帶動傘形齒盤1211繞第二軸向Y相對第一機體110朝逆時針方向T1與順時針方向T2樞轉，以同步帶動卡扣件121於第一機體110中擺動。 In detail, the second body 130 has a bevel gear 131 , the buckle 121 has a bevel gear 1211 , and the bevel gear 131 and the bevel gear 1211 are engaged with each other. The bevel gear 131 of the second body 130 is suitable for driving the bevel gear 1211 to pivot in the counterclockwise direction T1 and the clockwise direction T2 relative to the first body 110 around the second axis Y, so as to synchronously drive the buckle 121 on the second axis Y. A body 110 swings.

參考圖1D，卡扣件121具有一卡接部1212，卡榫123具有一凹槽G，卡扣件121的卡接部1212進入凹槽G中以限位卡榫123且彈性件124受到卡榫123的壓縮而蓄積彈力。參考圖1D及圖1E，卡接部1212分離於凹槽G以解除限位卡榫123且彈性件124不再受到卡榫123的壓縮而釋放彈力，並推動卡榫123沿著限位柱122朝第一方向D1滑動。 Referring to FIG. 1D , the buckle 121 has a clamping portion 1212, and the tenon 123 has a groove G, and the clamping portion 1212 of the buckle 121 enters the groove G to limit the tenon 123 and the elastic member 124 is locked. Compression of tenon 123 accumulates elastic force. Referring to FIG. 1D and FIG. 1E , the engaging portion 1212 is separated from the groove G to release the stopper tenon 123 and the elastic member 124 is no longer compressed by the tenon 123 to release the elastic force, and push the tenon 123 along the limit post 122 Swipe toward the first direction D1.

配合參考圖1D至圖1F及圖2，直立式電子裝置100包括一第一感測模組150，具有一第一接點151及一第二接點152，第一接點151配置於卡扣件121的卡接部1212，第二接點152配置於卡榫123的凹槽G。第一感測模組150電性耦接於直立式電子裝置100的一處理單元160，在本實施例中，處理單元160配置於第一機體110。 With reference to FIG. 1D to FIG. 1F and FIG. 2 , the upright electronic device 100 includes a first sensing module 150 with a first contact 151 and a second contact 152, and the first contact 151 is disposed on the buckle The locking portion 1212 of the component 121 is configured with the second contact point 152 in the groove G of the tenon 123 . The first sensing module 150 is electrically coupled to a processing unit 160 of the upright electronic device 100 , and in this embodiment, the processing unit 160 is configured in the first body 110 .

當卡扣件121扣合於卡榫123時，第一接點151與第二接點152電性耦接，判別顯示機體140交疊於第一機體110，當卡扣件121分離於卡榫123時，第一接點151與第二接點152電性斷開，判別顯示機體140突伸於該第一機體110。 When the buckle 121 is fastened to the tenon 123, the first contact 151 is electrically coupled to the second contact 152, and the judgment display body 140 overlaps the first body 110. When the buckle 121 is separated from the tenon At 123 , the first contact 151 and the second contact 152 are electrically disconnected, and it is determined that the display body 140 protrudes from the first body 110 .

配合參考圖1D至圖1F及圖2，於另一實施例中，第一感測模組150具有一第三接點153及一第四接點154，第三接點153配置於限位柱122且遠離底部B，第四接點154配置於卡榫123且對位於第三接點153。當卡榫123沿著限位柱122上升時，第三接點153與第四接點154電性耦接，判別顯示機體140突伸於第一機體110，當卡榫123沿著限位柱122下降時，第三接點153與第四接點154電性斷開，判別顯示機體140交疊於第一機體110。 With reference to FIG. 1D to FIG. 1F and FIG. 2 , in another embodiment, the first sensing module 150 has a third contact 153 and a fourth contact 154 , and the third contact 153 is arranged on the limit post 122 and away from the bottom B, the fourth contact 154 is disposed on the tenon 123 and opposite to the third contact 153 . When the tenon 123 rises along the limit column 122, the third contact 153 is electrically coupled with the fourth contact 154, and the judgment display body 140 protrudes from the first body 110. When the tenon 123 moves along the limit column When 122 descends, the third contact 153 and the fourth contact 154 are electrically disconnected, and it is judged that the display body 140 overlaps the first body 110 .

直立式電子裝置100包括一第二感測模組170，電性耦接於直立式電子裝置100的一處理單元160。第二感測模組170配置在第一機體110的第一表面S1且用以偵測第二機體130與第一機體110之間的一間距，當間距大於一預設值時，處理單元160判定第二機體130展開於第一機體110並傳送一展開訊號。當間距小於一預設值時，處理單元160判定第二機體130閉闔於第一機體110並傳送一閉闔訊號。補充而言，第二感測模組170例如是採用光感測器、霍爾感測器、聲波感測器或是其它用以感測距離的感測器。 The upright electronic device 100 includes a second sensing module 170 electrically coupled to a processing unit 160 of the upright electronic device 100 . The second sensing module 170 is disposed on the first surface S1 of the first body 110 and is used to detect a distance between the second body 130 and the first body 110. When the distance is greater than a preset value, the processing unit 160 It is determined that the second body 130 is deployed on the first body 110 and a deployment signal is sent. When the distance is less than a preset value, the processing unit 160 determines that the second body 130 is closed to the first body 110 and sends a closing signal. In addition, the second sensing module 170 adopts, for example, a light sensor, a Hall sensor, an acoustic wave sensor or other sensors for sensing distance.

參考圖1A及圖2，當第二機體130閉闔於第一機體110 且顯示機體140交疊於第一機體110時(閉闔模式)，處理單元160將產生第一控制訊號，用以執行關機、睡眠或登出等指令，以達到省電的功效。 1A and FIG. 2, when the second body 130 is closed on the first body 110 And when the display body 140 overlaps the first body 110 (closed mode), the processing unit 160 will generate a first control signal to execute commands such as shutdown, sleep or logout, so as to save power.

參考圖1B及圖2，當第二機體130展開於第一機體110且顯示機體140突伸於第一機體110時(展開模式)，處理單元160將產生第二控制訊號，用以執行開機、喚醒或登入等功能，以恢復為工作狀態。 Referring to FIG. 1B and FIG. 2, when the second body 130 is unfolded on the first body 110 and the display body 140 protrudes from the first body 110 (expansion mode), the processing unit 160 will generate a second control signal for performing booting, Features such as waking up or logging in to get back to work.

參考圖1C及圖2，當第二機體130閉闔於第一機體110且顯示機體140突伸於第一機體110時，此刻直立式電子裝置100切換為訊息模式，處理單元160將產生第三控制訊號，用以啟動特定的功能單元180，例如收音模組、網路模組或揚聲模組，可用以搜集音訊、顯示訊息或播放音樂。此外，顯示機體140突伸於第一機體110的預設區域SP，用以顯示上述功能單元的用戶介面，利於使用者的操控。 Referring to FIG. 1C and FIG. 2, when the second body 130 is closed to the first body 110 and the display body 140 protrudes from the first body 110, the upright electronic device 100 switches to the message mode at this moment, and the processing unit 160 will generate a third The control signal is used to activate a specific functional unit 180, such as a radio module, a network module or a speaker module, which can be used to collect audio, display information or play music. In addition, the display body 140 protrudes from the preset area SP of the first body 110 for displaying the user interface of the above-mentioned functional units, which is convenient for the user to control.

圖3A是本發明另一實施例的直立式電子裝置在閉闔模式下的側視示意圖。圖3B是圖3A的直立式電子裝置在展開模式下的側視示意圖。 3A is a schematic side view of an upright electronic device in a closed mode according to another embodiment of the present invention. FIG. 3B is a schematic side view of the upright electronic device in FIG. 3A in a unfolded mode.

參考圖3A及圖3B，本實施例的直立式電子裝置100A不同於圖1A的直立式電子裝置100，差別在於，第二機體130a具有一齒輪131a，驅動結構120a包括一齒條121a。齒條121a可滑動地配置在第一機體110a的第一表面S1且固接顯示機體140a，齒條121a與齒輪131a為相互嚙合。第二機體130a的齒輪131a 適於帶動齒條121a沿著第一機體110a滑動，以同步帶動顯示機體140a沿著第一機體110a滑動。 Referring to FIG. 3A and FIG. 3B , the upright electronic device 100A of this embodiment is different from the upright electronic device 100 in FIG. 1A in that the second body 130a has a gear 131a, and the driving structure 120a includes a rack 121a. The rack 121a is slidably disposed on the first surface S1 of the first body 110a and fixedly connected to the display body 140a, and the rack 121a and the gear 131a are engaged with each other. The gear 131a of the second body 130a It is suitable for driving the rack 121a to slide along the first body 110a to synchronously drive the display body 140a to slide along the first body 110a.

參考圖3B，在展開模式下，第二機體130a展開於第一機體110a且遠離第一表面S1，第二機體130a與第一機體110a之間形成一夾角CA，且第二機體130透過齒輪131a帶動驅動結構120a的齒條121a，而齒條121a帶動顯示機體140a沿著第一機體110a朝第一方向D1滑動且顯示機體140a突伸於第一機體110a的頂端TE，顯示機體140a與第一機體110a為部份交疊。詳細而言，在展開模式下，顯示機體140a與外部平面P之間的距離VH增加以利於使用者的觸控操作與觀看。 3B, in the unfolded mode, the second body 130a is deployed on the first body 110a and away from the first surface S1, an angle CA is formed between the second body 130a and the first body 110a, and the second body 130 passes through the gear 131a Drive the rack 121a of the driving structure 120a, and the rack 121a drives the display body 140a to slide along the first body 110a toward the first direction D1 and the display body 140a protrudes from the top TE of the first body 110a, the display body 140a and the first The body 110a is partially overlapped. In detail, in the expanded mode, the distance VH between the display body 140 a and the external plane P is increased to facilitate the user's touch operation and viewing.

參考圖3A，在閉闔模式下，第二機體130a朝第一機體110a第一表面S1閉闔，第二機體130a與第一機體110a相互平行，且第二機體130a透過齒輪131a帶動驅動結構120a的齒條121a，而齒條121a帶動帶動顯示機體140a沿著第一機體110a朝相反於第一方向D1的第二方向D2滑動且顯示機體140a齊平於第一機體110a的頂端TE，顯示機體140a交疊於第一機體110a與第二機體130a之間。詳細而言，在閉闔模式下，顯示機體140a與外部平面P之間的距離VH縮減，且顯示機體140a、第一機體110a與第二機體130a相互交疊以利於收納。 3A, in the closing mode, the second body 130a is closed toward the first surface S1 of the first body 110a, the second body 130a is parallel to the first body 110a, and the second body 130a drives the driving structure 120a through the gear 131a rack 121a, and the rack 121a drives the display body 140a to slide along the first body 110a in the second direction D2 opposite to the first direction D1 and the display body 140a is flush with the top TE of the first body 110a, the display body 140a overlaps between the first body 110a and the second body 130a. In detail, in the closed mode, the distance VH between the display body 140a and the external plane P is reduced, and the display body 140a, the first body 110a and the second body 130a overlap each other to facilitate storage.

圖4A是本發明再一實施例的直立式電子裝置在閉闔模式下的側視示意圖。圖4B是圖4A的直立式電子裝置在展開模式下的側視示意圖。 4A is a schematic side view of an upright electronic device in a closed mode according to another embodiment of the present invention. FIG. 4B is a schematic side view of the upright electronic device in FIG. 4A in a unfolded mode.

本實施例的直立式電子裝置100B近似於圖3A的直立式電子裝置100A，差別在於，在閉闔模式下(見圖4A)，第二機體130b與第一機體110b相互平行，顯示機體140b部份突伸於第一機體110b的頂端TE，顯示機體140a部份交疊於第一機體110a與第二機體130a之間。當切換為展開模式時(見圖4B)，顯示機體140b沿著第一機體110b朝第一方向D1滑動且透過驅動結構120b帶動第二機體130b展開於第一機體110b。 The upright electronic device 100B of this embodiment is similar to the upright electronic device 100A of FIG. 3A , the difference is that, in the closed mode (see FIG. 4A ), the second body 130b is parallel to the first body 110b, displaying part of the body 140b A portion protrudes from the top TE of the first body 110b, showing that the body 140a partially overlaps between the first body 110a and the second body 130a. When switching to the unfolding mode (see FIG. 4B ), the display body 140b slides along the first body 110b toward the first direction D1 and drives the second body 130b to unfold on the first body 110b through the driving structure 120b.

於本實施例中，使用者適於施力於第二機體130b或顯示機體140b，以將直立式電子裝置100B切換為展開模式。 In this embodiment, the user is suitable for applying force to the second body 130b or the display body 140b to switch the upright electronic device 100B to the unfolded mode.

舉例而言，參考圖4B，施力於第二機體130b，使其展開於第一機體110b且遠離第一表面S1，第二機體130b與第一機體110b之間形成一夾角CA，且第二機體130b透過驅動結構120b帶動顯示機體140b沿著第一機體110b朝第一方向D1滑動，或是拉動顯示機體140b突伸於第一機體110b的部位PT，使顯示機體140b沿著第一機體110朝第一方向D1滑動，並透過驅動結構120b帶動第二機體130b相對第一機體110b旋轉，則第二機體130b與第一機體110b之間形成一夾角CA。 For example, referring to FIG. 4B, a force is applied to the second body 130b to spread out on the first body 110b and away from the first surface S1, an angle CA is formed between the second body 130b and the first body 110b, and the second The body 130b drives the display body 140b to slide along the first body 110b toward the first direction D1 through the driving structure 120b, or pulls the part PT of the display body 140b protruding from the first body 110b, so that the display body 140b moves along the first body 110b. Sliding in the first direction D1 and driving the second body 130b to rotate relative to the first body 110b through the driving structure 120b, an angle CA is formed between the second body 130b and the first body 110b.

參考圖5，本實施例的直立式電子裝置100C近似於圖1A的直立式電子裝置100，差別在於第一機體110c為單純的支撐結構，且第二機體130c包括主機與鍵盤。 Referring to FIG. 5 , the upright electronic device 100C of this embodiment is similar to the upright electronic device 100 in FIG. 1A , the difference is that the first body 110c is a simple support structure, and the second body 130c includes a host and a keyboard.

圖6是本發明另一實施例的直立式電子裝置在展開模式下的側視示意圖。 FIG. 6 is a schematic side view of an upright electronic device in an unfolded mode according to another embodiment of the present invention.

參考圖6，直立式電子裝置100包括一支架190，可轉動地連接第一機體110相對第一表面S1的一第二表面S2，支架190適於相對第一機體110旋轉，以貼附於第二表面S2(未示於圖中)或展開於第二表面S2，當支架190展開於第二表面S2時，可提供一支撐力，避免第一機體110因外力而向後傾倒。 6, the vertical electronic device 100 includes a bracket 190, rotatably connected to a second surface S2 of the first body 110 opposite to the first surface S1, the bracket 190 is suitable for rotating relative to the first body 110, so as to be attached to the first body 110 The second surface S2 (not shown in the figure) may be deployed on the second surface S2. When the bracket 190 is deployed on the second surface S2, a supporting force may be provided to prevent the first body 110 from falling backward due to external force.

綜上所述，本發明的直立式電子裝置中，第一機體的底端放置於外部平面，而呈現為站立狀態，其中顯示機體可滑動地配置在第一機體，使用者適於透過外力帶動第二機體相對第一機體旋轉以切換為展開模式或閉闔模式。在展開模式下，第二機體藉由驅動結構同步帶動顯示機體沿著第一機體滑動，以增加顯示機體相對於外部平面的距離，以符合使用者的觀看視角。在閉闔模式下，第二機體藉由驅動結構同步帶動顯示機體沿著第一機體滑動，以縮減顯示機體相對於外部平面的距離，達成收納之目的。 To sum up, in the vertical electronic device of the present invention, the bottom end of the first body is placed on an external plane to present a standing state, wherein the display body is slidably arranged on the first body, and the user is suitable for driving the body through external force. The second body rotates relative to the first body to switch to an unfolded mode or a closed mode. In the unfolding mode, the second body synchronously drives the display body to slide along the first body through the driving structure, so as to increase the distance between the display body and the external plane to meet the viewing angle of the user. In the closed mode, the second body synchronously drives the display body to slide along the first body through the driving structure, so as to reduce the distance between the display body and the external plane to achieve the purpose of storage.

進一步而言，本發明的直立式電子裝置在切換為閉闔模式後，其第一機體的占據面積較小，而能節省收納空間。此外本發明的直立式電子裝置的第二機體相對第一機體旋轉時，將同步帶動顯示機體的滑動，以調整其距離，此能大幅簡化操作步驟。 Furthermore, after the upright electronic device of the present invention is switched to the closed mode, the occupied area of the first body is small, which can save storage space. In addition, when the second body of the upright electronic device of the present invention rotates relative to the first body, it will synchronously drive the sliding of the display body to adjust the distance, which greatly simplifies the operation steps.

100:直立式電子裝置 100: vertical electronic device

110:第一機體 110: The first body

120:驅動結構 120: Drive structure

121:卡扣件 121: Fasteners

1211:傘形齒盤 1211: Bevel gear

122:限位柱 122: limit column

123:卡榫 123: tenon

124:彈性件 124: Elastic parts

130:第二機體 130: Second body

131:傘形齒輪 131: bevel gear

140:顯示機體 140: Display body

170:第二感測模組 170: Second sensing module

B:底部 B: bottom

P:平面 P: Plane

X:第一軸向 X: the first axis

Y:第二軸向 Y: the second axis

Z:第三軸向 Z: the third axis

BE:底端 BE: bottom end

D2:第二方向 D2: Second direction

S1:第一表面 S1: first surface

S2:第二表面 S2: second surface

TE:頂端 TE: top

VH:距離 VH: Distance

Claims

一種直立式電子裝置，包括：一第一機體，具有一第一表面以及一底端；一驅動結構，配置於該第一機體；一第二機體，樞接於該第一機體且連接該驅動結構；以及一顯示機體，可滑動地配置在該第一機體的該第一表面且連接該驅動結構，其中，該第一機體的該底端適於放置於一外部平面，該第二機體適於相對該第一機體繞一第一軸向旋轉以切換為一展開模式或一閉闔模式，該第二機體透過該驅動結構帶動該顯示機體沿著該第一機體滑動，以調整該顯示機體與該外部平面之間的一距離。 An upright electronic device comprising: a first body having a first surface and a bottom; a driving structure configured on the first body; a second body, pivotally connected to the first body and connected to the driving structure; and a display body, slidably disposed on the first surface of the first body and connected to the driving structure, Wherein, the bottom end of the first body is suitable to be placed on an external plane, the second body is suitable to rotate around a first axis relative to the first body to switch to an unfolded mode or a closed mode, the first body The second body drives the display body to slide along the first body through the driving structure, so as to adjust a distance between the display body and the external plane.

如請求項1所述的直立式電子裝置，其中當該第二機體從閉闔模式切換為展開模式時，該第二機體與該第一機體之間形成的一夾角的角度漸增，該第二機體透過該驅動結構帶動該顯示機體沿著該第一機體朝一第一方向滑動且該顯示機體突伸於該第一機體的一頂端，該顯示機體與該第一機體為部份交疊，其中，該第一方向垂直該第一軸向，該第一機體的該頂端相對於該底端。The upright electronic device according to claim 1, wherein when the second body is switched from the closed mode to the expanded mode, an angle formed between the second body and the first body gradually increases, and the first body The second body drives the display body to slide along the first body in a first direction through the driving structure and the display body protrudes from a top of the first body, the display body and the first body partially overlap, Wherein, the first direction is perpendicular to the first axis, and the top end of the first body is opposite to the bottom end.

如請求項2所述的直立式電子裝置，其中當該第二機體從展開模式切換為閉闔模式時，該第二機體與該第一機體之間形成的該夾角的角度漸減，該第二機體透過該驅動結構帶動該顯示機體沿著該第一機體朝相反於該第一方向的一第二方向滑動且該顯示機體齊平於該第一機體的該頂端，且該顯示機體交疊於該第一機體與該第二機體之間。The upright electronic device according to claim 2, wherein when the second body switches from the expanded mode to the closed mode, the angle formed between the second body and the first body decreases gradually, and the second body The body drives the display body to slide along the first body in a second direction opposite to the first direction through the driving structure, and the display body is flush with the top of the first body, and the display body overlaps Between the first body and the second body.

如請求項1所述的直立式電子裝置，其中該驅動結構具有一卡扣件、一限位柱、一卡榫以及一彈性件，該卡扣件樞接於該第一機體且耦接該第二機體，該限位柱固設於該第一機體中，該卡榫可滑動地套設於該限位柱且連接該顯示機體，該彈性件套設於該限位柱且分別抵靠該卡榫與該限位柱的一底部，該第二機體適於帶動該卡扣件相對該第一機體樞轉以分離或扣合於該卡榫。The vertical electronic device according to claim 1, wherein the driving structure has a buckle, a limit post, a tenon and an elastic member, and the buckle is pivotally connected to the first body and coupled to the In the second body, the limiting column is fixed in the first body, the tenon is slidably sleeved on the limiting column and connected to the display body, the elastic member is sleeved on the limiting column and respectively abuts against The tenon is connected to a bottom of the limiting post, and the second body is suitable for driving the buckle to pivot relative to the first body so as to separate from or fasten to the tenon.

如請求項4所述的直立式電子裝置，其中當該卡扣件分離於該卡榫時，該彈性件推動該卡榫沿著該限位柱滑動，該卡榫帶動該顯示機體沿著該第一機體朝一第一方向滑動且該顯示機體突伸於該第一機體的該頂端。The vertical electronic device according to claim 4, wherein when the buckle part is separated from the tenon, the elastic member pushes the tenon to slide along the limit post, and the tenon drives the display body along the The first body slides toward a first direction and the display body protrudes from the top of the first body.

如請求項4所述的直立式電子裝置，其中當該卡榫沿著該限位柱滑動並壓縮該彈性件，且該卡扣件扣合於該卡榫時，該卡榫帶動該顯示機體沿著該第一機體朝一第二方向滑動且該顯示機體齊平於該第一機體的該頂端，該顯示機體交疊於該第一機體與該第二機體之間。The vertical electronic device according to claim 4, wherein when the tenon slides along the limiting post and compresses the elastic member, and the buckle is engaged with the tenon, the tenon drives the display body Sliding along the first body toward a second direction, the display body is flush with the top of the first body, and the display body overlaps between the first body and the second body.

如請求項4所述的直立式電子裝置，其中該第二機體具有一傘形齒輪，該卡扣件具有一傘形齒盤，該傘形齒輪與傘形齒盤為相互嚙合，該第二機體的該傘形齒輪適於帶動該傘形齒盤相對該第一機體樞轉，以同步帶動該卡扣件於該第一機體中擺動。The vertical electronic device as described in Claim 4, wherein the second body has a bevel gear, the buckle has a bevel toothed plate, the bevel gear and the bevel toothed plate are mutually meshed, and the second The bevel gear of the body is suitable for driving the bevel toothed plate to pivot relative to the first body to synchronously drive the buckle to swing in the first body.

如請求項6或7任一項所述的直立式電子裝置，其中該卡扣件具有一卡接部，該卡榫具有一凹槽，該卡接部進入該凹槽中以限位該卡榫且該彈性件蓄積彈力，該卡接部分離於該凹槽以解除限位該卡榫且該彈性件釋放彈力。The upright electronic device according to any one of claim 6 or 7, wherein the buckle has a locking portion, the tenon has a groove, and the locking portion enters the groove to limit the locking The tenon and the elastic member accumulate elastic force, the engaging portion is separated from the groove to release the tenon and the elastic member releases the elastic force.

如請求項4所述的直立式電子裝置，還包括一第一感測模組，具有一第一接點及一第二接點，該第一接點配置於該卡扣件，該第二接點配置於該卡榫。The upright electronic device as described in claim 4, further includes a first sensing module with a first contact and a second contact, the first contact is arranged on the buckle, and the second The contact is configured on the tenon.

如請求項9所述的直立式電子裝置，當該卡扣件扣合於該卡榫時，該第一接點與該第二接點電性耦接，判別該顯示機體交疊於該第一機體，當該卡扣件分離於該卡榫時，該第一接點與該第二接點電性斷開，判別該顯示機體突伸於該第一機體。 In the upright electronic device according to claim 9, when the buckle is engaged with the tenon, the first contact is electrically coupled to the second contact, and it is determined that the display body overlaps the second contact. A machine body , when the buckle is separated from the tenon, the first contact is electrically disconnected from the second contact, and it is judged that the display body protrudes from the first body.

如請求項4所述的直立式電子裝置，還包括一第一感測模組，具有一第三接點及一第四接點，該第三接點配置於該限位柱，該第四接點配置於該卡榫。The upright electronic device as described in claim 4, further comprising a first sensing module with a third contact and a fourth contact, the third contact is arranged on the limit post, and the fourth The contact is configured on the tenon.

如請求項11所述的直立式電子裝置，當該卡榫沿著該限位柱上升時，該第三接點與該第四接點電性耦接，判別該顯示機體突伸於該第一機體，當該卡榫沿著該限位柱下降時，該第三接點與該第四接點電性斷開，判別該顯示機體交疊於該第一機體。 In the upright electronic device as claimed in item 11, when the tenon rises along the limiting post, the third contact is electrically coupled to the fourth contact, and it is determined that the display body protrudes from the second contact. A machine body , when the tenon descends along the limiting post, the third contact is electrically disconnected from the fourth contact, and it is judged that the display body overlaps the first body.

如請求項1所述的直立式電子裝置，還包括一第二感測模組，配置在該第一機體的該第一表面且用以偵測該第二機體與該第一機體之間的一間距，以傳送一展開訊號或一閉闔訊號。The upright electronic device according to claim 1, further comprising a second sensing module disposed on the first surface of the first body and used for detecting the distance between the second body and the first body A distance for transmitting an unfolding signal or a closing signal.

如請求項1所述的直立式電子裝置，其中第二機體具有一齒輪，該驅動結構包括一齒條，該齒條可滑動地配置在該第一機體的該第一表面且固接該顯示機體，該齒條與齒輪為相互嚙合，該第二機體的該齒輪適於帶動該齒條沿著該第一機體滑動，以同步帶動該顯示機體沿著該第一機體滑動。The vertical electronic device as claimed in item 1, wherein the second body has a gear, the driving structure includes a rack, the rack is slidably disposed on the first surface of the first body and fixed to the display The body, the rack and the gear are in mesh with each other, and the gear of the second body is suitable for driving the rack to slide along the first body to synchronously drive the display body to slide along the first body.

如請求項1所述的直立式電子裝置，其中在閉闔模式下，該第二機體與該第一機體相互平行，該顯示機體部份突伸於該第一機體的該頂端，當切換為展開模式時，該顯示機體沿著該第一機體朝一第一方向滑動且透過該驅動結構帶動該第二機體展開於該第一機體。 The upright electronic device according to claim 1, wherein in the closed mode, the second body and the first body are parallel to each other, and the display body part protrudes from the top of the first body, when switched to In the unfolding mode, the display body slides along the first body toward a first direction and drives the second body to unfold on the first body through the driving structure .

如請求項1所述的直立式電子裝置，還包括一支架，可轉動地連接該第一機體相對該第一表面的一第二表面，該支架適於相對該第一機體旋轉，以閉闔於該第二表面或展開於該第二表面。The upright electronic device as claimed in claim 1, further comprising a bracket rotatably connected to a second surface of the first body opposite to the first surface, the bracket is adapted to rotate relative to the first body to close on the second surface or spread out on the second surface.