TW201433707A - Pivot structure and electronic device using the same - Google Patents

Pivot structure and electronic device using the same Download PDF

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Publication number
TW201433707A
TW201433707A TW102106645A TW102106645A TW201433707A TW 201433707 A TW201433707 A TW 201433707A TW 102106645 A TW102106645 A TW 102106645A TW 102106645 A TW102106645 A TW 102106645A TW 201433707 A TW201433707 A TW 201433707A
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Taiwan
Prior art keywords
base
width
rotating shaft
segment
end portion
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TW102106645A
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Chinese (zh)
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TWI502143B (en
Inventor
Chin-Lung Fan
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Wistron Corp
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Priority to TW102106645A priority Critical patent/TWI502143B/en
Priority to CN201310077343.3A priority patent/CN104006067B/en
Publication of TW201433707A publication Critical patent/TW201433707A/en
Application granted granted Critical
Publication of TWI502143B publication Critical patent/TWI502143B/en

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  • Pivots And Pivotal Connections (AREA)

Abstract

A pivot structure is disclosed, which includes a first and a second base, a hinge unit and a linkage. The first base includes a sliding groove and a through hole. The sliding groove extends along a direction from a first end portion and terminates at a second end portion. The through hole is located at a position adjacent to the second end portion and configured to allow a shaft of the second base passing therethrough in a pivotable manner. The hinge unit is connected to the shaft of the second base to provide torsion force for the shaft. The linkage is pivotablly connected to the second base and includes an embossed portion slidably disposed in the sliding groove, wherein a width of the first end portion is larger than a width of the second end portion, and a width of the embossed portion is larger than the width of the second end portion. Also an electronic device using the pivot structure is disclosed.

Description

樞接結構及應用該樞接結構之電子裝置 Pivot structure and electronic device using the same

本發明係關於一種電子裝置之結構零部件,特別係關於一種電子裝置之樞接結構。 The present invention relates to a structural component of an electronic device, and more particularly to a pivotal structure of an electronic device.

電子裝置(例如:筆記型電腦)通常包括一螢幕以及一主機,螢幕接收來自設置於主機內系統的顯示訊號以顯示畫面。在電子裝置使用時,螢幕往往容易受到外力觸碰而晃動,因此如何抑制螢幕晃動的位移以及控制螢幕晃動的頻率一直都是電子裝置設計上的重點之一。 An electronic device (eg, a notebook computer) typically includes a screen and a host that receives display signals from a system disposed in the host to display a picture. When the electronic device is used, the screen is often easily shaken by external force, so how to suppress the displacement of the screen and control the frequency of the screen shaking has always been one of the key points in the design of the electronic device.

一般而言,傳統製造商除了在系統端及螢幕端加強結構設計外,也會藉由一設置於螢幕與主機連結處的樞接結構,利用其所所產生的扭力減少螢幕晃動。然而,為了有效抑制螢幕的震動或晃動,樞接結構中的鉸鏈的體積必須隨之增加以提供更大的扭力,如此將不利於電子裝置內部空間上的利用。另外,系統端及螢幕端也必須在結構上進行調整,以相容具有不同規格的鉸鏈,實屬不便。因此,一種可以有效抑制晃動的樞接結構即高度被需求。 In general, in addition to strengthening the structural design on the system side and the screen side, the traditional manufacturer uses the pivoting structure provided at the joint between the screen and the host to reduce the screen shake by using the torque generated by the conventional manufacturer. However, in order to effectively suppress the vibration or shaking of the screen, the volume of the hinge in the pivotal structure must be increased to provide greater torque, which would be detrimental to the utilization of the internal space of the electronic device. In addition, the system side and the screen end must also be structurally adjusted to be compatible with hinges having different specifications, which is inconvenient. Therefore, a pivotal structure that can effectively suppress sloshing, that is, a height is required.

有鑑於此,本發明之一目的即在於提供一種樞接結構,藉由增加樞接結構部分元件之間的摩擦力,加強二個基 座之間的穩定度。 In view of the above, an object of the present invention is to provide a pivotal structure for reinforcing two bases by increasing the friction between the components of the pivotal structure. Stability between the seats.

為達上述目的,本發明提供一種可應用於一電子裝置之樞接結構,其包括:一第一基座、一第二基座、一扭力單元及一連桿。第一基座具有一第一側緣與一相對該第一側緣之第二側緣,且包括一滑槽及一穿孔。滑槽自一第一端部實質由該第一側緣朝向該第二側緣延伸至一第二端部,穿孔則位於該滑槽之第二端部與該第二側緣之間。第二基座包括一第一轉軸,其中該第一轉軸穿過該穿孔並繞該穿孔之中心樞轉。扭力單元連結於該第一轉軸並提供扭力於該第一轉軸。連桿樞設於該第二基座,且包括一以可滑動方式設置於該滑槽內之凸柱,其中該第二端部之寬度較該第一端部之寬度窄,且該凸柱之寬度係大於該第二端部之寬度。 To achieve the above objective, the present invention provides a pivoting structure applicable to an electronic device, comprising: a first base, a second base, a torsion unit, and a link. The first base has a first side edge and a second side edge opposite the first side edge, and includes a sliding slot and a through hole. The sliding groove extends from the first side edge toward the second side edge to a second end portion from a first end portion, and the through hole is located between the second end portion of the sliding groove and the second side edge. The second base includes a first shaft, wherein the first shaft passes through the hole and pivots about a center of the hole. The torque unit is coupled to the first rotating shaft and provides a torque to the first rotating shaft. The connecting rod is pivotally disposed on the second base, and includes a protruding post slidably disposed in the sliding slot, wherein the width of the second end portion is narrower than the width of the first end portion, and the protruding post The width is greater than the width of the second end.

在上述較佳實施例中,該滑槽包括一第一段以及一連結於第一段之第二段。第一段位於該第一端部與一參考點之間,第二段位於該參考點與該第二端部之間,其中該凸柱之寬度係小於或等於該第一段之寬度,且該凸柱之寬度係大於該第二段之寬度。在第二基座相對於第一基座樞轉的過程中,為逐漸兩者間的摩擦力,滑槽之第一段之寬度自該第一端部朝該參考點的方向上漸減,且滑槽之第二段之寬度自該參考點朝該第二端部的方向上維持相同。藉由上述配置,該第一基座繞該第二基座之穿孔之樞轉驅動該凸柱自該第一段滑向該第二段,且當該凸柱位於該第二段時,該滑槽受該凸柱之壓迫而變形。 In the above preferred embodiment, the chute includes a first segment and a second segment coupled to the first segment. a first segment is located between the first end and a reference point, and a second segment is between the reference point and the second end, wherein the width of the stud is less than or equal to the width of the first segment, and The width of the stud is greater than the width of the second segment. During the pivoting of the second base relative to the first base, in order to gradually friction between the two, the width of the first section of the chute is gradually decreased from the first end toward the reference point, and The width of the second section of the chute remains the same from the reference point toward the second end. With the above configuration, the pivoting of the first base around the perforation of the second base drives the stud from the first segment to the second segment, and when the stud is located in the second segment, the The chute is deformed by the compression of the stud.

在上述較佳實施例中,該第二基座包括一第二轉 軸,該第二轉軸相鄰該第一轉軸,且該連桿樞設於該第二轉軸,其中。該連桿之長度大於該第二轉軸與該第一轉軸之間的距離。 In the above preferred embodiment, the second base includes a second turn a shaft, the second rotating shaft is adjacent to the first rotating shaft, and the connecting rod is pivotally disposed on the second rotating shaft. The length of the connecting rod is greater than the distance between the second rotating shaft and the first rotating shaft.

在上述較佳實施例中,該第一基座以及該凸柱至少其中之一者係由彈性材料製成,其中該彈性材料包括鋁、塑膠。 In the above preferred embodiment, at least one of the first base and the stud is made of an elastic material, wherein the elastic material comprises aluminum or plastic.

本發明亦提供一種包括上述樞接結構之電子裝置,其中電子裝置更包括一第一模組與一第二模組。樞接結構之第一基座設置於該第一模組,且樞接結構之該第二基座設置於該第二模組。 The present invention also provides an electronic device including the above pivotal structure, wherein the electronic device further includes a first module and a second module. The first base of the pivoting structure is disposed on the first module, and the second base of the pivoting structure is disposed on the second module.

本發明之樞接結構藉由一設置於二個基座之間的連桿,增加二個基座相對樞轉時彼此之間的摩擦力,以加強抑制震動或晃動之功效。 The pivoting structure of the present invention increases the friction between the two bases when they are relatively pivoted by a connecting rod disposed between the two bases to enhance the effect of suppressing vibration or shaking.

1‧‧‧電子裝置 1‧‧‧Electronic device

3‧‧‧第一模組 3‧‧‧ first module

5‧‧‧第二模組 5‧‧‧ second module

10‧‧‧樞接結構 10‧‧‧ pivot structure

110‧‧‧第一基座 110‧‧‧First base

111‧‧‧第一固定部 111‧‧‧First Fixed Department

113‧‧‧第一連結部 113‧‧‧First Link

113a‧‧‧第一側緣 113a‧‧‧First side edge

113b‧‧‧第二側緣 113b‧‧‧second side

115‧‧‧穿孔 115‧‧‧Perforation

117‧‧‧滑槽 117‧‧ ‧ chute

117a‧‧‧第一端部 117a‧‧‧ first end

117b‧‧‧第二端部 117b‧‧‧second end

117c‧‧‧參考點 117c‧‧ Reference point

120‧‧‧第二基座 120‧‧‧Second base

121‧‧‧第二固定部 121‧‧‧Second fixed department

123‧‧‧第二連結部 123‧‧‧Second Link

125‧‧‧第一轉軸 125‧‧‧First shaft

127‧‧‧第二轉軸 127‧‧‧second shaft

130‧‧‧扭力單元 130‧‧‧Torque unit

150‧‧‧連桿 150‧‧‧ linkage

151‧‧‧本體 151‧‧‧Ontology

151a、151b‧‧‧本體之一端 151a, 151b‧‧‧ one end of the body

152‧‧‧連結孔 152‧‧‧Link hole

153‧‧‧止檔部 153‧‧

155‧‧‧凸柱 155‧‧‧Bump

170、180‧‧‧固定元件 170, 180‧‧‧Fixed components

C1‧‧‧第一軸心 C1‧‧‧first axis

C2‧‧‧第二軸心 C2‧‧‧Second axis

C3‧‧‧第三軸心 C3‧‧‧third axis

D1‧‧‧凸柱之寬度 D1‧‧‧The width of the stud

L1、L2‧‧‧長度 L1, L2‧‧‧ length

S1‧‧‧第一段 S1‧‧‧ first paragraph

S2‧‧‧第二段 S2‧‧‧ second paragraph

W1‧‧‧第一端部之寬度 W1‧‧‧ width of the first end

W2‧‧‧第二端部之寬度 W2‧‧‧ width of the second end

第1圖顯示本發明之一實施例之樞接結構之示意圖。 Fig. 1 is a schematic view showing a pivotal structure of an embodiment of the present invention.

第2圖顯示本發明之一實施例之樞接結構之元件分解圖。 Fig. 2 is an exploded perspective view showing the pivotal structure of an embodiment of the present invention.

第3圖顯示本發明之一實施例之樞接結構之側視圖,其中第二基座位120於第一位置。 Figure 3 is a side elevational view of the pivotal structure of one embodiment of the present invention with the second base 120 in the first position.

第4圖顯示本發明之一實施例之樞接結構之側視圖,其中第二基座位120於第二位置。 Figure 4 is a side elevational view of the pivotal structure of one embodiment of the present invention with the second base 120 in the second position.

第5圖顯示本發明之一實施例之樞接結構之側視圖,其中第二基座位120於第三位置。 Figure 5 shows a side view of a pivotal structure of one embodiment of the present invention with the second base 120 in a third position.

第6圖顯示本發明之一實施例之應用第1圖之樞接結構之電 子裝置之示意圖。 Figure 6 is a diagram showing the application of the pivotal structure of Figure 1 in an embodiment of the present invention. Schematic diagram of the sub-device.

為了讓本發明之目的、特徵、及優點能更明顯易懂,下文特舉較佳實施例,並配合所附圖示做詳細之說明。其中,實施例中的各元件之配置係為說明之用,並非用以限制本發明。且實施例中圖式標號之部分重複,係為了簡化說明,並非意指不同實施例之間的關聯性。 In order to make the objects, features, and advantages of the present invention more comprehensible, The arrangement of the various elements in the embodiments is for illustrative purposes and is not intended to limit the invention. The overlapping portions of the drawings in the embodiments are for the purpose of simplifying the description and are not intended to be related to the different embodiments.

參照第1圖,本發明之樞接結構10包括一第一基座110、一樞設於第一基座110之第二基座120、一扭力單元130、一連桿150及複數個固定元件170、180。藉由扭力單元130與連桿150的配置,第一基座110與第二基座120於靜態時的穩定度得以增加。 Referring to FIG. 1 , the pivoting structure 10 of the present invention includes a first pedestal 110 , a second pedestal 120 pivoted to the first pedestal 110 , a torsion unit 130 , a connecting rod 150 , and a plurality of fixing components 170, 180. By the configuration of the torsion unit 130 and the link 150, the stability of the first base 110 and the second base 120 when static is increased.

樞接結構10的結構特徵詳述如下。參照第2圖,第一基座110包括一第一固定部111及一第一連結部113。在一實施例中,第一固定部111垂直於第一固定部113,以配置用於連結於一電子裝置之構件(未圖示於第2圖)。第一連結部113具有一第一側緣113a與一相對第一側緣113a之第二側緣113b,且包括一穿孔115以及一滑槽117。滑槽117自一第一端部117a實質由第一側緣113a朝向第二側緣113b之方向延伸至一第二端部117b。穿孔115位於滑槽117之第二端部117b與第二側緣113b之間。值得注意的是,如第2圖所示般,滑槽117之第一端部117a之寬度W1係相異於第二端部117b之寬度W2,其中第一端部117a之寬度W1係大於第二端部117b之寬度W2。關於滑槽117之特徵將於關於第3圖之說明當中詳述。 The structural features of the pivotal structure 10 are detailed below. Referring to FIG. 2 , the first base 110 includes a first fixing portion 111 and a first connecting portion 113 . In one embodiment, the first fixing portion 111 is perpendicular to the first fixing portion 113 to be configured to be coupled to an electronic device (not shown in FIG. 2). The first connecting portion 113 has a first side edge 113a and a second side edge 113b opposite to the first side edge 113a, and includes a through hole 115 and a sliding slot 117. The chute 117 extends from a first end portion 117a substantially from the first side edge 113a toward the second side edge 113b to a second end portion 117b. The through hole 115 is located between the second end 117b of the chute 117 and the second side edge 113b. It should be noted that, as shown in FIG. 2, the width W1 of the first end portion 117a of the chute 117 is different from the width W2 of the second end portion 117b, wherein the width W1 of the first end portion 117a is greater than The width W2 of the two end portions 117b. The features of the chute 117 will be detailed in the description of Fig. 3.

第二基座120包括一第二固定部121及一第二連結部123。在一實施例中,第二固定部121垂直於第二固定部123,以配置用於連結於一電子裝置之構件(未圖示於第2圖)。第二連結部123包括一第一轉軸125以及一相鄰第一轉軸125之第二轉軸127。第一轉軸125穿過第一基座110之穿孔117並繞一第一軸心C1(第1圖)樞轉。 The second base 120 includes a second fixing portion 121 and a second connecting portion 123. In one embodiment, the second fixing portion 121 is perpendicular to the second fixing portion 123 to be configured to be coupled to an electronic device (not shown in FIG. 2). The second connecting portion 123 includes a first rotating shaft 125 and a second rotating shaft 127 adjacent to the first rotating shaft 125. The first shaft 125 passes through the through hole 117 of the first base 110 and pivots about a first axis C1 (Fig. 1).

扭力單元130連結於第一轉軸125並提供扭力於第一轉軸125。在此實施例中,扭力單元130包括複數個墊片組,藉由複數個墊片組之間所產生的摩擦力,而限定第二基座120的位置。 The torsion unit 130 is coupled to the first rotating shaft 125 and provides a torque to the first rotating shaft 125. In this embodiment, the torsion unit 130 includes a plurality of spacer groups that define the position of the second base 120 by the friction generated between the plurality of spacer groups.

連桿150包括一本體151、一止檔部153以及一凸柱155。止檔部153相鄰本體151之一端151a,且一連結孔152相鄰本體151之另一端151b。凸柱155設置於止檔部153上,且朝遠離本體151的方向向外伸出。連桿150之連結孔152藉由固定元件170、180(例如:螺栓與墊片)樞設於第二基座120之第二轉軸127上,並繞一第二軸心C2(第1圖)樞轉。另一方面,連桿150之凸柱155以可滑動方式穿設於滑槽117內,並藉由固定元件170、180(例如:螺栓與墊片)加以固定,以繞一第三軸心C3(第1圖)樞轉。在此實施例中,凸柱155之寬度D1係大於滑槽117之第二端部117b之寬度W2,但小於滑槽117之第一端部117a之寬度W1。 The connecting rod 150 includes a body 151, a stop portion 153 and a stud 155. The stop portion 153 is adjacent to one end 151a of the body 151, and a connecting hole 152 is adjacent to the other end 151b of the body 151. The stud 155 is disposed on the stopper portion 153 and protrudes outward in a direction away from the body 151. The connecting hole 152 of the connecting rod 150 is pivoted on the second rotating shaft 127 of the second base 120 by fixing elements 170, 180 (for example, bolts and washers), and is wound around a second axis C2 (Fig. 1). Pivot. On the other hand, the boss 155 of the connecting rod 150 is slidably disposed in the sliding slot 117 and fixed by fixing members 170, 180 (for example, bolts and washers) to surround a third axis C3. (Fig. 1) pivoting. In this embodiment, the width D1 of the stud 155 is greater than the width W2 of the second end 117b of the chute 117, but smaller than the width W1 of the first end 117a of the chute 117.

詳而言之,如第3圖所示般,滑槽117可示意性地分為二段,其中滑槽117之第一段S1位於滑槽117之第一端部117a與一參考點117c之間,且滑槽117之第二段S2位於參考點 117c與滑槽117之第二端部117b之間。凸柱155之寬度D1係小於或等於第一段S1之寬度,且凸柱155之寬度係大於第二段S2之寬度。在此實施例中,第一段S1之寬度自第一端部117a朝參考點117c的方向上漸減,且第二段S2之寬度自參考點117c朝第二端部117b的方向上維持相同。但並不限定於此,在另一未圖式之實施例中,滑槽之第二段之寬度亦可朝第二端部方向上漸減。關於此特徵所產生之功效將於下方詳述。 In detail, as shown in FIG. 3, the chute 117 can be schematically divided into two segments, wherein the first segment S1 of the chute 117 is located at the first end portion 117a of the chute 117 and a reference point 117c. And the second segment S2 of the chute 117 is located at the reference point 117c is between the second end 117b of the chute 117. The width D1 of the stud 155 is less than or equal to the width of the first segment S1, and the width of the stud 155 is greater than the width of the second segment S2. In this embodiment, the width of the first segment S1 is gradually decreased from the first end portion 117a toward the reference point 117c, and the width of the second segment S2 is maintained the same from the reference point 117c toward the second end portion 117b. However, the present invention is not limited thereto. In another embodiment, the width of the second section of the chute may also decrease toward the second end. The efficacy of this feature will be detailed below.

同時參照第3、4、5圖,本實施例之樞接結構10之作動方式說明如下:第二基座120可相對於第一基座110自一第一位置(第3圖,第一固定座111與第二固定座121之間夾角0度)經由一第二位置(第4圖,第一固定座111與第二固定座121之間夾角90度)到達一第三位置(第5圖,第一固定座111與第二固定座121之間夾角130度)。 Referring to Figures 3, 4, and 5, the operation of the pivoting structure 10 of the present embodiment is as follows: the second pedestal 120 can be from a first position relative to the first pedestal 110 (Fig. 3, first fixed The angle between the seat 111 and the second fixing seat 121 is 0 degree) to reach a third position via a second position (the fourth figure, the angle between the first fixing seat 111 and the second fixing seat 121 is 90 degrees) (Fig. 5) The angle between the first fixing seat 111 and the second fixing seat 121 is 130 degrees).

如第3圖所示般,當第二基座120位於第一位置時,凸柱155位於滑槽117之第一段S1,並與滑槽117之第一端部117a維持一距離,未抵靠於第一端部117a。接著,當第二基座120自第一位置樞轉至第二位置的過程中,第二基座120之第一轉軸125繞第一軸心C1樞轉,且連桿150同時繞第二軸心C2以及第三軸心C3樞轉。此時,連桿150之凸柱155自滑槽117之第一段S1先朝向第一端部117移動再朝遠離第一端部117的方向滑動而進入滑槽117之第二段S2。值得注意的是,由於滑槽117之第一段S1之寬度逐漸減少,凸柱155滑動於滑槽117中的阻力漸增。 As shown in FIG. 3, when the second pedestal 120 is in the first position, the stud 155 is located at the first segment S1 of the chute 117 and maintains a distance from the first end portion 117a of the chute 117. Relying on the first end portion 117a. Then, during the pivoting of the second base 120 from the first position to the second position, the first rotating shaft 125 of the second base 120 pivots about the first axis C1, and the connecting rod 150 simultaneously rotates around the second axis The heart C2 and the third axis C3 pivot. At this time, the first column S1 of the connecting rod 150 moves from the first segment S1 of the sliding groove 117 toward the first end portion 117 and then slides away from the first end portion 117 to enter the second segment S2 of the sliding groove 117. It is to be noted that as the width of the first segment S1 of the chute 117 is gradually reduced, the resistance of the stud 155 sliding in the chute 117 is gradually increased.

接著,當第二基座120自第二位置樞轉至第三位置 的過程中,第二基座120之第一轉軸125繞第一軸心C1樞轉,且連桿150同時繞第二軸心C2以及第三軸心C3樞轉。此時,連桿150之凸柱155進入滑槽117之第二段S2並且擠壓滑槽117之第二段S2之內壁。為了使凸柱155順利進入滑槽117之第二段S2且緊配合於滑槽117,在此實施例中,第一基座110以及凸柱115至少其中之一者係由彈性材料(例如:鋁、塑膠)製成。當凸柱155進入滑槽117之第二段S2後,凸柱155與滑槽117至少其中之一者產生彈性變形。 Then, when the second pedestal 120 is pivoted from the second position to the third position During the process, the first rotating shaft 125 of the second base 120 pivots about the first axis C1, and the connecting rod 150 simultaneously pivots about the second axis C2 and the third axis C3. At this time, the boss 155 of the link 150 enters the second section S2 of the chute 117 and presses the inner wall of the second section S2 of the chute 117. In order to allow the stud 155 to smoothly enter the second segment S2 of the chute 117 and tightly fit the chute 117, in this embodiment, at least one of the first pedestal 110 and the stud 115 is made of an elastic material (for example: Made of aluminum and plastic). When the stud 155 enters the second section S2 of the chute 117, at least one of the stud 155 and the chute 117 is elastically deformed.

是以,在凸柱155進入滑槽117之第二段S2後,若第二基座120停止於第二位置與第三位置之間的任意位置時,第二基座120皆可藉由凸柱155與滑槽117之間所產生的摩擦力以及扭力單元130(第2圖)所產生之阻力而抵消第二基座120因震動或晃動而產生之外力,進而固定第二基座120於一固定位置。 Therefore, after the second column S2 of the sliding column 155 enters the sliding groove 117, if the second base 120 stops at any position between the second position and the third position, the second base 120 can be convex The friction generated between the column 155 and the sliding groove 117 and the resistance generated by the torque unit 130 (Fig. 2) cancel the external force generated by the second base 120 due to vibration or shaking, thereby fixing the second base 120. A fixed position.

值得注意的是,如第5圖所示般,第二軸心C2與第三軸心C3之間距L2(連桿150與第二轉軸127之連結處和連桿150與滑槽117之連結處之間距),大於第一軸心C1與第二軸心C2之間的間距L1(第一轉軸125與第二轉軸127之間的間距)。藉由此配置,凸柱155與滑槽117之間的摩擦力將可因力矩加乘而被放大,使第二基座120與第一基座110之間的穩定度得以進一步增加。 It should be noted that, as shown in FIG. 5, the distance between the second axis C2 and the third axis C3 is L2 (the junction of the link 150 and the second shaft 127 and the connection between the link 150 and the chute 117). The distance between the first axis C1 and the second axis C2 is greater than the distance between the first axis 125 and the second axis 127. With this configuration, the friction between the stud 155 and the chute 117 can be amplified by the torque multiplication, so that the stability between the second pedestal 120 and the first pedestal 110 is further increased.

參照第6圖,本發明之一應用上述樞接結構10之電子裝置1包括一第一模組3以及一第二模組5。在一示範實施例中,電子裝置1為一可攜式電腦,第一模組3包括鍵盤及運作裝 置(未圖示於第6圖),且第二模組5包括一顯示裝置(未圖示於第6圖)。樞接結構10之第一基座110連結於第一模組3,且樞接結構10之第二基座120連結於第二模組5。藉由樞接結構10之結構特徵,第一模組3與第二模組5之間夾角大於90度時,第二模組5不易受外力影響而產生震動或晃動,進而增加使用者(觀看者)之舒適性。 Referring to FIG. 6 , an electronic device 1 using the pivoting structure 10 of the present invention includes a first module 3 and a second module 5 . In an exemplary embodiment, the electronic device 1 is a portable computer, and the first module 3 includes a keyboard and a running device. The display (not shown in FIG. 6), and the second module 5 includes a display device (not shown in FIG. 6). The first pedestal 110 of the pivoting structure 10 is coupled to the first module 3 , and the second pedestal 120 of the pivoting structure 10 is coupled to the second module 5 . By the structural feature of the pivoting structure 10, when the angle between the first module 3 and the second module 5 is greater than 90 degrees, the second module 5 is not easily affected by external force to generate vibration or shaking, thereby increasing the user (viewing The comfort of the person.

雖然本發明已以較佳實施例揭露於上,然其並非用以限定本發明,任何熟習此項技藝者,在不脫離本發明之精神和範圍內,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圍所界定者為準。 Although the present invention has been disclosed in its preferred embodiments, it is not intended to limit the present invention, and it is possible to make some modifications and refinements without departing from the spirit and scope of the present invention. The scope of the invention is defined by the scope of the appended claims.

10‧‧‧樞接結構 10‧‧‧ pivot structure

110‧‧‧第一基座 110‧‧‧First base

111‧‧‧第一固定部 111‧‧‧First Fixed Department

113‧‧‧第一連結部 113‧‧‧First Link

113a‧‧‧第一側緣 113a‧‧‧First side edge

113b‧‧‧第二側緣 113b‧‧‧second side

115‧‧‧穿孔 115‧‧‧Perforation

117‧‧‧滑槽 117‧‧ ‧ chute

117a‧‧‧第一端部 117a‧‧‧ first end

117b‧‧‧第二端部 117b‧‧‧second end

120‧‧‧第二基座 120‧‧‧Second base

121‧‧‧第二固定部 121‧‧‧Second fixed department

123‧‧‧第二連結部 123‧‧‧Second Link

125‧‧‧第一轉軸 125‧‧‧First shaft

127‧‧‧第二轉軸 127‧‧‧second shaft

130‧‧‧扭力單元 130‧‧‧Torque unit

150‧‧‧連桿 150‧‧‧ linkage

151‧‧‧本體 151‧‧‧Ontology

151a、151b‧‧‧本體之一端 151a, 151b‧‧‧ one end of the body

152‧‧‧連結孔 152‧‧‧Link hole

153‧‧‧止檔部 153‧‧

155‧‧‧凸柱 155‧‧‧Bump

170、180‧‧‧固定元件 170, 180‧‧‧Fixed components

D1‧‧‧凸柱之寬度 D1‧‧‧The width of the stud

W1‧‧‧第一端部之寬度 W1‧‧‧ width of the first end

W2‧‧‧第二端部之寬度 W2‧‧‧ width of the second end

Claims (10)

一種樞接結構,包括:一第一基座,具有一第一側緣與一相對該第一側緣之第二側緣,且包括:一滑槽,自一第一端部實質由該第一側緣朝向該第二側緣之方向延伸至一第二端部,其中該第二端部之寬度較該第一端部之寬度窄;以及一穿孔,位於該滑槽之第二端部與該第二側緣之間;一第二基座,包括一第一轉軸,其中該第一轉軸穿過該穿孔並繞該穿孔之中心樞轉;一扭力單元,連結於該第一轉軸並提供扭力於該第一轉軸;以及一連桿,樞設於該第二基座,且包括一以可滑動方式設置於該滑槽內之凸柱,其中該凸柱之寬度係大於該第二端部之寬度。 A pivoting structure includes: a first base having a first side edge and a second side edge opposite the first side edge, and comprising: a sliding slot, substantially from the first end a side edge extending toward the second side edge to a second end portion, wherein the second end portion has a width narrower than the first end portion; and a through hole at the second end portion of the chute a second base includes a first rotating shaft, wherein the first rotating shaft passes through the through hole and pivots around a center of the through hole; a torque unit is coupled to the first rotating shaft and Providing a torque to the first rotating shaft; and a connecting rod pivotally disposed on the second base, and including a protruding post slidably disposed in the sliding slot, wherein the width of the protruding post is greater than the second The width of the end. 如申請專利範圍第1項所述之樞接結構,其中該滑槽包括:一第一段,位於該第一端部與一參考點之間,其中該凸柱之寬度係小於或等於該第一段之寬度;以及一第二段,位於該參考點與該第二端部之間,其中該凸柱之寬度係大於該第二段之寬度。 The pivoting structure of claim 1, wherein the sliding slot comprises: a first segment between the first end and a reference point, wherein the width of the stud is less than or equal to the first a width of a segment; and a second segment between the reference point and the second end, wherein the width of the stud is greater than the width of the second segment. 如申請專利範圍第2項所述之樞接結構,其中該第一段之寬度自該第一端部朝該參考點的方向上漸減。 The pivoting structure of claim 2, wherein the width of the first segment decreases from the first end toward the reference point. 如申請專利範圍第2項所述之樞接結構,其中該第二段之寬度自該參考點朝該第二端部的方向上維持相同。 The pivotal structure of claim 2, wherein the width of the second segment remains the same from the reference point toward the second end. 如申請專利範圍第2項所述之樞接結構,其中該第一基座繞該第二基座之穿孔之樞轉驅動該凸柱自該第一段滑向該第二段,且當該凸柱位於該第二段時,該滑槽或該凸柱至少其中之一者產生彈性變形。 The pivoting structure of claim 2, wherein the pivoting of the first base around the perforation of the second base drives the stud from the first segment to the second segment, and when When the stud is located in the second section, at least one of the chute or the stud is elastically deformed. 如申請專利範圍第1項所述之樞接結構,其中該第二基座更包括一第二轉軸,該第二轉軸相鄰該第一轉軸,且該連桿樞設於該第二轉軸。 The pivoting structure of claim 1, wherein the second base further comprises a second rotating shaft, the second rotating shaft is adjacent to the first rotating shaft, and the connecting rod is pivotally disposed on the second rotating shaft. 如申請專利範圍第6項所述之樞接結構,其中該連桿與第二轉軸之連結處和該連桿與該滑槽之連結處之間的間距,大於該第二轉軸與該第一轉軸之間的間距。 The pivoting structure of claim 6, wherein a distance between the connecting portion of the connecting rod and the second rotating shaft and a joint between the connecting rod and the sliding slot is greater than the second rotating shaft and the first The spacing between the shafts. 如申請專利範圍第1項所述之樞接結構,其中該第一基座以及該凸柱至少其中之一者係由彈性材料製成。 The pivoting structure of claim 1, wherein the first base and at least one of the studs are made of an elastic material. 如申請專利範圍第8項所述之樞接結構,其中該彈性材料包括鋁、塑膠。 The pivotal structure of claim 8, wherein the elastic material comprises aluminum or plastic. 一種包括如申請專利範圍第1項所述之樞接結構之電子裝置,包括一第一模組與一第二模組,其中該第一基座連結於該第一模組,且該第二基座連結於該第二模組。 An electronic device comprising the pivoting structure of claim 1, comprising a first module and a second module, wherein the first base is coupled to the first module, and the second The base is coupled to the second module.
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