M398317 五、新型說明: 【新型所屬之技術領域】 本創作關於一種可調整扭力的拖紐器,尤指_種設於 電子裝置之顯示面板與底座間而使顯示面板可相對於底座 樞轉的樞紐器。 - 【先前技術】 樞紐器係為掀蓋式電子裝置中不可或缺的元件之一, 其裝設於電子裝置之底座與顯示面板之間,利用不同部分 :構件分別與顯示面板和底座相互固$,則使得顯示面板 讦以相對於底座樞轉,而該等不同構件之間的相對轉動亦 相對產生了摩擦而形成扭力’該扭力可使顯示面板停滯於 任何位置’則更於使用者調整所需的顯示面板視角。 然而,現有技術的樞紐器之扭力值在製造各元件時即 以設定完《,例如主要由管簧架輸出杻力值者則由管簧 架的材質及管徑大小等參數來決定扭力值;又例如主要由 彈酱輸出扭力值者,則㈣簧的彈性係數等參數來決定扭 力值,故倘若欲得到不同的扭力值,縱使採用元件組成相 同的樞紐器’製造者仍須重新製作不同的關鍵零組件才能 得到不同扭力值的枢紐器;例如同樣由樞軸及管簧架所構 成的樞紐器’戶、要需要不同的扭力值,則管簧架就必須重 新製作,對製造商而言將粍費較多的製造成本。 【新型内容】 有鑑於前述之現有技術的缺點,本創作係設計了一種 可調整扭力的樞紐器,以便於使用者在組裝時因應所需而 M398317 調整出不同的扭力值。 =到上述之創作目的’本創作所採用的技 6又6十—種可調整扭力的樞紐器,其中包括: 為 一拖軸; 一旋轉承架, 一扭力彈簧, 定端; 其與樞轴相互固定; 其套設於樞軸外且具有一調整端及—固 。固疋承架,其與扭力彈簧之固定端相互固定,固定 承架具有-容置板,容置板相對於扭力彈簧之調整端且容 置板中貫穿成型有一調整孔; -調整件,其貫穿固定承架之容置板的調整孔,且調 整件突伸於容置板上,調整件具有一接觸端,該接觸端與 扭力彈簧之調整端相推頂。 本創作另設計一種電子裝置,其包含一顯示面板、一 底座及至少一前述之可調整扭力的樞紐器,其中樞紐器的 固定承架與底座相互固定,樞紐器的旋轉承架與顯示面板 相互固定’當顯示面板相對於底座樞轉時,旋轉承架帶動 樞軸相對於固定承架及扭力彈簧旋轉。 本創作的優點在於,藉由調整件突伸於容置板上的高 度,來改變扭力彈簧的迫緊程度,進而影響整體輸出的杻 力值大小’因此,製造者無須因應不同扭力值而重新製造 各關鍵零組件,僅需在組裝時旋動調整件即可達到調整扭 力值的功效,如此則有效降低製造成本且使製造者能更靈 活調整扭力值。 【實施方式】 4 M398317 以下配合圓式及本創作之較佳實施例,進—步閒述本創 作為達成預定創作目的所採取的技術手段。 請參閱圖!及圖2所示’本創作之可調整扭力的樞㈣ 1包含有-固定承_ 10、_樞軸20、一旋轉承架3〇、—杻 力彈簧40及一調整件5〇。 明參閱圖2至圖4所示,前述之固定承架1〇包含有— 套筒Η及一固定翼12,套筒u具有一第一端】"及一第二 端"2套筒11之内壁面形成有一階級面"〇,套筒"之 第-端⑴軸向延伸成型有—容置板ιΐ3,容置板⑴ 穿成型有-調整孔114’該調整孔114可為一螺孔,套筒η 之第二端112軸向延伸成型有一限位凸塊115,固定翼u 徑向延伸成型於套筒11之外壁面。 前述之枢轴20穿設於固定承架^㈣U卜_ 20上控向延伸成型有―援几緣 有衣凸緣21,環凸緣21抵靠於套筒u 之階級面UQ上’㈣2。之—端軸向延伸成型-斷面 圓形的固定桿22。 前述之旋轉承架30套設並固定於框轴2〇之固定桿以 外’旋轉承架30之端面内凹成型有—非圓形孔“以與固定 桿22相卡合固定,故旋韓永 時,將帶動樞轴20相對於固^對於固定承架1〇轉動 相對於固疋承架1〇旋轉,旋轉承架3〇 之端面㈣成型有1位弧们2,固定 7設::轉承架3〇之限位弧槽3”,當旋轉承架3。 二Lr 0轉動時,限位弧槽32與限位凸塊115產 生相對轉動,並藉由限彳立辦m 槽32之端緣與限位凸塊1丨5相 推頂而限㈣轉承架3〇之轉動角度,旋轉承架30之外劈面 5 M398317 徑向延伸成型有一連接翼33。 前述之扭力彈簧40纏繞套設於枢軸2〇外且穿設於固定 =架1〇之套筒η中,扭力彈簧4〇具有一調整端二及一固 定端42’調整端41相對位於固定承架1〇之容置板π3上, 固疋端42與固定承架1〇相互固定。M398317 V. New description: [New technical field] The present invention relates to a torque-adjustable drag device, in particular, which is arranged between the display panel of the electronic device and the base to pivot the display panel relative to the base. Hub. - [Prior Art] The hinge is one of the indispensable components in the clamshell electronic device. It is installed between the base of the electronic device and the display panel, and uses different parts: the components are respectively fixed to the display panel and the base. $, so that the display panel 枢 pivots relative to the base, and the relative rotation between the different members also generates friction to form a torsion force 'this torque can make the display panel stagnant at any position' is more user-adjusted The desired display panel viewing angle. However, the torque value of the prior art hub is set after the components are manufactured. For example, the torque value is determined by parameters such as the material of the spring frame and the diameter of the pipe diameter, mainly by the output value of the pipe spring frame; For example, if the torque value is mainly output from the magazine sauce, the spring force coefficient of the spring is used to determine the torque value. Therefore, if different torque values are to be obtained, even if the hub member with the same component composition is used, the manufacturer still needs to reproduce different values. Key components can get different torque values for the hinge; for example, the hinges and the spring frame are also used to form a hinge. To require different torque values, the spring frame must be remade, for the manufacturer. It will cost more manufacturing costs. [New content] In view of the above-mentioned shortcomings of the prior art, the present invention has designed a hinged torque adjustment mechanism, so that the user can adjust different torque values according to the needs of the M398317 during assembly. = to the above-mentioned creative purpose 'This technique is used in the 6th and 60th-adjustable torque hubs, including: a drag axle; a rotating bracket, a torsion spring, fixed end; and its pivot They are fixed to each other; they are sleeved outside the pivot and have an adjustment end and a solid. The fixing bracket is fixed to the fixed end of the torsion spring, the fixing bracket has a receiving plate, the adjusting plate is opposite to the adjusting end of the torsion spring and an adjusting hole is formed through the receiving plate; The adjustment hole extends through the receiving plate of the fixed frame, and the adjusting member protrudes from the receiving plate. The adjusting member has a contact end, and the contact end is pushed up with the adjusting end of the torsion spring. The present invention further provides an electronic device, which comprises a display panel, a base and at least one of the aforementioned adjustable torque hinges, wherein the fixed bracket of the hinge and the base are fixed to each other, and the rotating bracket of the hinge and the display panel are mutually Fixed 'When the display panel pivots relative to the base, the rotating bracket rotates the pivot relative to the fixed bracket and the torsion spring. The advantage of this creation is that the tension of the torsion spring is changed by the height of the adjusting member protruding from the receiving plate, thereby affecting the magnitude of the overall output force. Therefore, the manufacturer does not need to respond to different torque values. By manufacturing the key components, it is only necessary to adjust the torque value by rotating the adjustment member during assembly, thus effectively reducing the manufacturing cost and enabling the manufacturer to adjust the torque value more flexibly. [Embodiment] 4 M398317 The following is a technical means for achieving the intended purpose of creation in conjunction with the round and the preferred embodiment of the present invention. Please see the picture! And the hinge (4) 1 of the present invention, which can adjust the torsion, comprises a fixing bracket 10, a pivot 20, a rotating bracket 3, a spring 40 and an adjusting member 5'. Referring to FIG. 2 to FIG. 4, the aforementioned fixed frame 1〇 includes a sleeve Η and a fixed wing 12, the sleeve u has a first end and a second end "2 sleeve The inner wall of the eleventh surface is formed with a class surface "〇, the first end of the sleeve" (1) axially extending with a receiving plate ιΐ3, and the receiving plate (1) is formed with an adjusting hole 114' A screw hole, the second end 112 of the sleeve η is axially extended to form a limiting protrusion 115, and the fixed wing u is radially extended to form an outer wall surface of the sleeve 11. The aforementioned pivot shaft 20 is disposed on the fixed bracket (4) Ub_20. The controllable extension is formed with a plurality of garment flanges 21, and the ring flange 21 abuts against the dimension surface UQ of the sleeve u (4) 2. The end is axially extended to form a section - a circular fixed rod 22. The rotating bracket 30 is sleeved and fixed to the fixing rod of the frame shaft 2〇. The end surface of the rotating bracket 30 is concavely formed with a non-circular hole to be engaged with the fixing rod 22, so that the rotation is long-lasting. The driving pivot 20 rotates relative to the fixed bracket 1 相对 relative to the fixed bracket 1 ,, and the end surface (4) of the rotating bracket 3 成型 is formed with 1 arc 2, fixed 7:: rotator 3〇The limit arc groove 3”, when the frame 3 is rotated. When the two Lr 0 rotates, the limit arc groove 32 and the limit protrusion 115 rotate relative to each other, and the end edge of the limit m-slot 32 is pushed to the top of the limit protrusion 1丨5, and the fourth (four) turn The rotation angle of the frame 3, the outer surface of the rotating frame 30, the M398317, is radially extended to form a connecting wing 33. The torsion spring 40 is wound around the pivot shaft 2 and is disposed in the sleeve η of the fixed=frame 1〇. The torsion spring 4〇 has an adjustment end 2 and a fixed end 42'. The adjustment end 41 is opposite to the fixed bearing. The fixing end plate 42 and the fixing bracket 1 are fixed to each other on the receiving plate π3.
請參閱圖5所示,前述之調整件5〇貫穿容置板丨13之 調!孔114且突伸於容置113Ji,調整件5〇之接觸端Η 推頂扭力彈簧40之調整端41,調整件50可於調整孔114 中上下移動後並定位,相對於調整孔114可為螺孔,調整件 5 0可為—螺絲螺合於調整孔1 14中。 請參閱圖6所示,本創作之電子裝置包含有—顯示面板 6_〇、-底座70及至少—本創作之枢紐器卜樞紐器】設於顯 不面板⑼與底座7G之間,樞紐器1之旋轉承架3G的連接 =3與顯示面板6M目互固^,樞紐器ι之固定承架⑺的 固定翼12與底座70相互固定,則當顯示面板60相對於底 座7〇樞轉時,㈣承架3〇相對於固定承架1〇旋轉。 哨參閱圖5及圖6所示’當旋轉承架3〇相對於固定承 ^ 1〇旋轉時,旋轉承架3〇帶動樞軸20相對於扭力彈簧4〇 :轉’藉由扭力彈簧4〇與樞轴2〇之間的相互摩擦而產生扭 則該扭力將使得顯示面板6G可停滞於使用者所需的視 ^搭配杻力彈簧40纏繞方向與旋轉承架30之旋轉方向 二设則當顯示面板6〇朝展開的角度旋轉時(以圖5為 主逆時針方向),樞軸2〇相對將扭力彈簧40旋鬆而降 ^ ’的扭力,又當顯示面板6〇朝閉合的角度旋轉時(如圖 歹,朝順時針方向),樞軸20相對將扭力彈簧40旋緊而 6 M3983J7 提同此時的杻力,因此,本創作之樞紐器1提供了朝不同方 向紋轉時具有不同扭力值的特性,一般而言該功能稱之為 開k關重」’即讓使用者在展開顯示面板6〇時可省力, 故能快速展開顯示面板60使用,又讓使用者在閉合顯示面 板時費較多的力量,以保護顯示面板6〇避免過快關閉而不 慎與底座70發生撞擊則將導致毀損。 請參閱圖5和圖7所示,當製造者欲改變樞紐器〗所提 供的扭力值時,可藉由改變調整件50突伸於容置板113上 • 的高度來達到調整扭力值的目的; 當調整件50突伸於容置板113上的高度較低時(如圖5 斤示)扭力彈簧40纏繞於拖轴20外之鬆緊程度較緊,故 與框轴20間的摩擦力較大,此時樞紐器1所輸出的扭力值 亦相對較大,配合前述之開輕關重的功能,此種狀態下展開 時的扭力值約為2kg、而閉合時的扭力值約為8kg ; _當調整件5〇突伸於容置板Π3上的高度較高(如圖7所 鲁不)’調整端41被頂起則使得扭力彈簧4〇纏繞於樞軸2〇外 ^鬆緊程度較鬆,故與樞軸2〇間的摩擦力變小此時樞紐 器1所輸出的扭力值亦相對較小,配合前述之開輕關重的功 月匕’此種狀態下展開時的扭力值約A i 5至i 8kg、而閉合 時的扭力值約為4至7.5kg ; 因此在各零件均相同的情況下,僅需改變調整件5 〇 的位置即可達到調整本創作之樞紐器1所輸出的扭力值之效 ^。必須要特別說明的是上述的扭力值僅為了示例上的說 以教不不論是否使用該調整件50,本創作之樞紐器1 仍然可以達到開輕關重的功能。 7 M398317 月參閱圖8至圖1G所示為本創作之拖紐器的另一 其進-步包含有一管菁片8〇A,管著片說套設於插軸 ,外且穿設於扭力彈簧40A +,管簧片8〇A之壁面貫穿 成型有-縱向缺口 8IA,以使管簧片8〇A可展開或緊縮,管 簧片8〇A之端緣縱向延伸成型有—延伸凸塊82a,固定承架 10A之套筒11A之階級面u〇A内凹成型有相對應的卡槽 116A,管簧片80A之延伸凸塊82A穿設於固定承架丨〇a: 卡槽Π6Α巾,以將管簧片說與固定承帛1〇八相互固定, 軸20A之&凸緣21A和固定桿22A分別成型於拖轴2〇八 之相異端,則管簧片80A相對位於旋轉承架3〇a與環凸緣 21A之間’故環凸緣21A可阻擋管簧片8〇A與樞軸2〇a發 生軸向脫離。 請參閱圖11 12所示,當製造者欲改變福紐器所提 供的扭力值時,同樣可藉由改變調整件5〇A突伸於容置板 Π3Α上的高度來達到調整扭力值的目的; 當調整件50A突伸於容置板113Ajl的高度較低時(如圖 11所示),扭力彈簧40A纏繞於管簧片80A外之鬆緊程度較 緊,使得管簧片80A較緊密的貼靠於樞軸2〇A外,故與樞 軸20A間的摩擦力較大,此時樞紐器所輸出的扭力值亦相對 較大; 當調整件50A突伸於容置板113A上的高度較高(如圖 12所示),調整端41A被頂起則使得扭力彈簧4〇a纏繞於管 簧片80A外之鬆緊程度較鬆,而管簧片8〇A相對包覆於樞 轴20A外的力量較小’縱向缺口 81A相對較為張開,故與 柩軸20 A間的摩擦力變小,此時樞紐器所輸出的扭力值亦相 8 _83i7 對較小; 因此,本創作之樞紐器的另 情況下’亦同樣僅需改變調整件 輸出的扭力值。 —實施例在各零件均相同的 5〇A的位置即可達到調整所 -另外’要特別說明的是,在第-實施例中(如圖卜2) 所不’扭力彈簧4G係直接與抱轴2〇產生摩擦,因此在顯示 面板⑹相對於底座70閉合時,扭力彈簧4〇纏繞於棍轴2〇 外之鬆緊程度變得比較緊;反之,顯示面板開啟時則扭力 彈簧40纏繞於樞轴2G外之鬆緊程度變得比較鬆,因而產生 開輕關重的功能。然而’在第二實施例令,當顯示面板6〇 相對於底座70開啟或關閉時,都是由管簧片8〇α與樞軸 相互磨擦而產生扭力,因此,這個扭力會是一固定的值,所 以在本實施中,並沒有所謂「開輕關重」的功能產生;也就 ^說,顯示面板6 (Μ目對於底座7 〇開啟或_時的扭力都會 是相同的。但是,由於該扭力彈簧4〇係直接施力於管簧片 8〇Α上,因此,仍然可以藉由調整該調整件5〇α突伸於容置 板Π3Α上的高度來控制該扭力值的大小,但都不會有所謂 「開輕關重」的功能產生。 此外,還要再特別說明的是,在第—實施例中所述的 固定承架10上形成該套筒U,接著該扭力彈簧40的固定端 42固定於該套筒1丨之中;然而,亦可省略該套筒η而使扭 力彈簧40的固定端42直接固定於該固定承架1〇,其亦不影 響本創作的功效β因此,固定承架可以有各式的態樣而不受 限於本創作之所述。 以上所述僅是本創作的較佳實施例而已,並非對本創作 9 M398317 做任何形式上的限制’雖然本創作已以較佳實施例揭露如 上’然而並非用以限定本創作,任何所屬技術領域中具有通 常知識者’在不脫離本創作技術方案的範圍内,當可利用上 述揭示的技術内容作出些許更動或修飾為等同變化的等效 實施例’但凡是未脫離本創作技術方案的内容,依據本創作 的技術實質對以上實施例所作的任何簡單修改、等同變化與 修飾,均仍屬於本創作技術方案的範圍内。 【圖式簡單說明】 φ 圖1為本創作之可調整扭力的樞紐器之立體外觀圖 圖2為本創作之可調整扭力的樞紐器之元件分解圖 圖3為本創作之可調整扭力的樞紐器之另一元件分解 圖 圖4為本創作之可調整扭力的枢紐器之側視剖面圖 圖5為本創作之可調整扭力的樞紐器之端視刮面圖 圖6為本創作之電子裝置的立體圖 圖7為本創作之可調整扭力的樞紐器之端視剖面動作 參 圖 圖8為本創作之可調整扭力的樞紐器另一實施例之立 體外觀圖 圖9為本創作之可調整扭力的樞紐器另一實施例之元 件分解圖 圖10為本創作之可調整扭力的樞紐器另一實施例之側 視剖面圖 圖Π為本創作之可調整扭力的樞紐器另一實施例之端 視别面圖 10 M3983.17 圖1 2為本創作之可調整扭力的樞紐器另一實施例之端 視剖面動作圖Referring to FIG. 5, the aforementioned adjustment member 5 〇 passes through the accommodating plate 丨 13! The hole 114 protrudes from the receiving end 113Ji, and the adjusting end 50 of the adjusting member 5〇 pushes the adjusting end 41 of the torsion spring 40. The adjusting member 50 can be moved up and down in the adjusting hole 114 and positioned, and the adjusting hole 114 can be For the screw hole, the adjusting member 50 can be screwed into the adjusting hole 1 14 . Referring to FIG. 6 , the electronic device of the present invention includes a display panel 6_〇, a base 70, and at least a hinge hub of the present invention. The hub is disposed between the display panel (9) and the base 7G. The connection of the rotating bracket 3G of the device 1=3 and the display panel 6M are mutually fixed, and the fixed wing 12 of the fixed bracket (7) of the hinge ι and the base 70 are fixed to each other, and when the display panel 60 pivots relative to the base 7 At the time, (4) the frame 3 turns relative to the fixed frame 1 turn. The whistle refers to FIG. 5 and FIG. 6 'When the rotating bracket 3 〇 rotates relative to the fixed bearing 1 , the rotating bracket 3 〇 drives the pivot 20 relative to the torsion spring 4 转: turns 'by the torsion spring 4 〇 When the friction between the two shafts and the pivot shaft 2 is twisted, the torque will cause the display panel 6G to be stagnant in the direction of the winding of the spring spring 40 required by the user and the rotation direction of the rotating bracket 30. When the display panel 6 is rotated toward the unfolded angle (in the counterclockwise direction in FIG. 5), the pivot 2〇 is rotated relative to the torsion spring 40, and the display panel 6 is rotated toward the closed angle. At the time (as shown in Fig. 歹, clockwise), the pivot 20 is tightened relative to the torsion spring 40 and the 6 M3983J7 is accompanied by the force at this time. Therefore, the hinge 1 of the present invention provides the direction of the grain in different directions. The characteristics of different torque values, generally speaking, the function is called "opening k", which allows the user to save effort when expanding the display panel 6 ,, so that the display panel 60 can be quickly deployed and the user can be closed. The panel costs more power to protect the display panel 6〇 Avoid too close without careful with the base 70 will lead to the occurrence of impact damage. Referring to FIG. 5 and FIG. 7, when the manufacturer wants to change the torque value provided by the hinge, the torque value can be adjusted by changing the height of the adjusting member 50 protruding from the receiving plate 113. When the height of the adjusting member 50 protruding from the receiving plate 113 is low (as shown in FIG. 5), the torsion spring 40 is tightly wound around the towing shaft 20, so that the friction between the adjusting member 50 and the frame shaft 20 is relatively tight. Large, at this time, the torque value outputted by the hinge 1 is relatively large, and with the aforementioned function of opening and closing the weight, the torque value when deployed in this state is about 2 kg, and the torque value when closing is about 8 kg; _ When the height of the adjusting piece 5 〇 protrudes on the accommodating plate Π 3 is high (as shown in Fig. 7), the adjusting end 41 is pushed up, so that the torsion spring 4 〇 is wound around the pivot 2 ^ Loose, so the friction between the shaft and the pivot 2 is reduced. At this time, the torque value outputted by the hinge 1 is relatively small, and the torque value of the power of the opening and closing of the above-mentioned light and heavy duty is expanded. About A i 5 to i 8kg, and the torque value when closing is about 4 to 7.5kg; therefore, in the case where the parts are the same, only need Varying the position of the adjusting member 5 billion to effect adjustment torque value reaches the Original output hub 1 ^. It must be specially stated that the above-mentioned torque value is only for the example. It is taught that the hinge 1 of the present invention can still achieve the function of opening and closing the weight regardless of whether or not the adjustment member 50 is used. 7 M398317 month, as shown in Figure 8 to Figure 1G, another step of the drag-and-drop device of the present invention comprises a tube-shaped piece 8〇A, which is sleeved on the insertion shaft and is placed outside the torsion The spring 40A+, the wall surface of the tube spring 8〇A is formed with a longitudinal notch 8IA so that the tube spring 8〇A can be unfolded or contracted, and the end edge of the tube spring 8〇A is longitudinally extended to form an extension bump. 82a, the level surface u〇A of the sleeve 11A of the fixed frame 10A is concavely formed with a corresponding card slot 116A, and the extension protrusion 82A of the tube spring piece 80A is disposed through the fixed frame 丨〇a: the card slot Π6Α In order to fix the tube spring and the fixed bearing cymbal, the flange 20A of the shaft 20A and the fixing rod 22A are respectively formed on the opposite ends of the trailing shaft 2, and the tube spring 80A is relatively located at the rotating bearing. Between the frame 3〇a and the ring flange 21A, the ring flange 21A can block the axial disengagement of the tube spring 8〇A from the pivot 2〇a. Referring to FIG. 11 12, when the manufacturer wants to change the torque value provided by the Fuzhou device, the torque value can also be adjusted by changing the height of the adjusting member 5〇A protruding from the receiving plate Π3Α. When the height of the adjusting member 50A protruding from the receiving plate 113Ajl is low (as shown in FIG. 11), the torsion spring 40A is tightly wound around the tube spring 80A, so that the tube spring 80A is tightly attached. Relying on the pivot 2〇A, the friction between the pivot and the pivot 20A is relatively large. At this time, the torque value of the hinge is relatively large; when the height of the adjusting member 50A protrudes from the receiving plate 113A High (as shown in FIG. 12), the adjustment end 41A is lifted up so that the torsion spring 4〇a is loosely wound outside the tube spring piece 80A, and the tube spring piece 8A is relatively covered with the pivot axis 20A. The force is smaller 'the longitudinal gap 81A is relatively open, so the friction between the shaft and the shaft 20 A becomes smaller. At this time, the torque value output by the hinge is also smaller than 8 _83i7; therefore, the hinge of the creation In other cases, it is also only necessary to change the torque value of the output of the adjustment piece. - The embodiment can reach the adjustment position at the position of 5 〇A which is the same for each part - in addition, it is to be particularly noted that in the first embodiment (Fig. 2), the torque spring 4G is directly engaged with the hug. The shaft 2 〇 generates friction, so when the display panel (6) is closed relative to the base 70, the degree of tightness of the torsion spring 4 〇 wound around the shaft 2 becomes relatively tight; otherwise, when the display panel is opened, the torsion spring 40 is wound around the pivot The tightness of the shaft 2G becomes looser, which results in the function of opening and closing the weight. However, in the second embodiment, when the display panel 6 is opened or closed relative to the base 70, the torsion force is generated by the tube spring 8 〇α and the pivot shaft, and thus the torque is fixed. Value, so in this implementation, there is no such thing as "open light weight" function; that is to say, the display panel 6 (the head is the same for the base 7 〇 open or _ when the torque is the same. However, because The torsion spring 4 is directly applied to the tube spring 8〇Α, so that the torque value can be controlled by adjusting the height of the adjusting member 5〇α protruding from the receiving plate Π3Α, but There is no such thing as a function of "opening the light weight". In addition, it is to be particularly noted that the sleeve U is formed on the fixed frame 10 described in the first embodiment, and then the torsion spring 40 is formed. The fixed end 42 is fixed in the sleeve 1 ;; however, the sleeve η can also be omitted to directly fix the fixed end 42 of the torsion spring 40 to the fixed frame 1 〇, which does not affect the efficacy of the creation. Therefore, the fixed frame can have various forms without being limited by The above description is only a preferred embodiment of the present invention, and is not intended to limit the scope of the present invention 9 M398317, although the present disclosure has been disclosed in the preferred embodiment as above, however, it is not intended to limit the present. Creation, any person having ordinary skill in the art, without departing from the scope of the present technical solution, may make some modifications or modifications to equivalent variations using the technical content disclosed above. The contents of the creative technical solution, any simple modifications, equivalent changes and modifications made to the above embodiments according to the technical essence of the creation are still within the scope of the technical solution of the creation. [Simplified illustration] φ Figure 1 is the creation FIG. 2 is an exploded view of the hinge of the adjustable torque of the present invention. FIG. 3 is another exploded view of the hinge of the adjustable torque of the present invention. Side view of the hinge of the adjustable torque Figure 5 is an end view of the hinge of the adjustable torque of the present invention. Fig. 7 is a perspective view of the hinge of the adjustable torque of the present invention. Fig. 8 is a perspective view of another embodiment of the adjustable torque of the present invention. FIG. 10 is a side cross-sectional view of another embodiment of the adjustable torque of the present invention. The hinge of the adjustable torque is another End view of the embodiment Figure 10 M3983.17 Figure 1 2 is a cross-sectional view of another embodiment of the adjustable torque of the present invention
【主要元件符號說明】 10、10A固定承架 1 10、1 10A階級面 112第二端 1 1 4調整孔 Π6Α卡槽 20、20A柩軸 22、22A固定桿 3 1非圓形孔 33連接翼 41、41 A調整端 50、50A調整件 60顯示面板 80A管簧片 82A延伸凸塊 1 1、1 1 A套筒 1 1 1第一端 1 13、1 13A容置板 1 1 5限位凸塊 12固定翼 2 1、2 1 A環凸緣 30、30A旋轉承架 3 2限位弧槽 40、40A扭力彈簧 42固定端 51、51A接觸端 70底座 8 1 A縱向缺口[Main component symbol description] 10, 10A fixed frame 1 10, 1 10A class surface 112 second end 1 1 4 adjustment hole Α 6 Α card slot 20, 20A 柩 shaft 22, 22A fixed rod 3 1 non-circular hole 33 connecting wing 41, 41 A adjustment end 50, 50A adjustment member 60 display panel 80A tube spring 82A extension projection 1 1 , 1 1 A sleeve 1 1 1 first end 1 13, 1 13A receiving plate 1 1 5 limit convex Block 12 fixed wing 2 1 , 2 1 A ring flange 30, 30A rotating frame 3 2 limit arc groove 40, 40A torsion spring 42 fixed end 51, 51A contact end 70 base 8 1 A longitudinal gap