M436174 五、新型說明: 【新型所屬之技術領域】 本新型是有關於一種顯示器模組。 【先前技術】 因曰前數位時代的來臨、網路的普及以及數位傳播訊 號的改變,相對地使顯示螢幕的技術產生相當程度的變 馨化。其中,液晶顯示螢幕的發明因其具有輕薄、省電及無 輻射等優點,而已成為日前電腦顯示螢幕及家用電視的主 流產品。一般而言,將液晶顯示螢幕擺放於桌櫃上方時, 該液晶顯示螢幕通常需設置相關支架,一方面供承放整個 顯示裝置,另一方面亦可透過相關支架以支撐定位或調整 顯示裝置之角度。 然而,近年來的液晶顯示螢幕支架結構中,除了將支 架與液晶顯示螢幕個別製作再加以組裝之外,另可在整個 _具有支架之液晶顯示螢幕放至於桌櫃表面後,亦可方便的 進行液晶顯示螢幕各種不同傾斜角度的調整。 目前液晶顯示器多將液晶螢幕裝設於一支撐座上,藉支 撐座使液晶螢幕得以直立擺放,並於支撐座與液晶螢幕間 設置兩者相接的枢紐益,使液晶榮幕措柩紐裔付以相對於 支撐座樞轉,讓使用者可依需求調整液晶螢幕的角度。 近年來,因研發出將主機所需之電子零組件置入顯示 器内部之全機一體式(All in one)電腦,雖減少了整體電 腦設備的體積,但也造成顯示器之尺寸日益增大之現象。 全機一體式電腦可使用在桌上式、平躺式及壁掛式等多種 M436174 形式的電腦設備上。但將全機一體式電腦運用在壁掛上 時,需對懸臂支架進行拆裝而調整角度,使電腦固定在牆 面上後再調整以保持其特定之使用角度。桌上式電腦為將 顯示器之懸臂支架直立於桌上係為傳統一般電腦的使用方 式,而平躺式電腦係為了改變顯示器與懸臂所呈之角度並 調整懸臂與底座的角度使顯示器可大致地平躺在桌面上。 現因桌上式、平躺式及壁掛式之間的轉換需進行顯示 器與懸臂之角度改變及懸臂與底座間角度的改變。在傳統 ®全機一體式電腦的構造上進行變換,需額外利用工具拆解 再進行組裝造成繁複的手段過程,因此對於全機一體式電 腦在使用形式的改變上產生不便。 【新型内容】 有鑑於先前技術所造成的問題,本新型提供了一種顯 示器模組以克服先前技術所造成的問題。 根據本新型一實施方式,一種顯示器模組包含顯示器 *本體、懸臂、拉線、固定件、彈性元件、底座及固定環。 懸臂之上端部與顯示器本體樞接,其中顯示器本體相對於 懸臂沿第一轉軸方向旋轉。拉線下端部連接固定件,拉線 上端部連接在懸臂之上端部與顯示器本體柩接處。彈性元 件套入拉線内,其中彈性元件之一端部卡抵懸臂之内壁且 彈性元件相對另一端部卡抵於固定件用以抵推固定件。懸 臂之下端部與底座樞接,懸臂相對於底座沿第二轉軸方向 旋轉,其中當顯示器本體相對於懸臂旋轉時,拉線帶動固 定件離開每一固定孔或解除帶動固定件使固定件僅受彈性 4 M436174 元件抵推。固定環套合在懸臂之下端部與底座樞接處,其 中固定環設置數個固定孔用以供固定件插設而使懸臂相對 於底座能夠呈現數個對應角度。 在本新型一實施方式中,顯示器本體進一步包含連接 板用以連接懸臂。 在本新型一實施方式中,懸臂進一步包含容置區用以 容置彈性元件及固定件。 在本新型一實施方式中,彈性元件為壓縮彈簧。 在本新型一實施方式中,懸臂係為一鋅合金懸臂。 在本新型一實施方式中,第一轉軸平行於第二轉轴。 在本新型一實施方式中,拉線為鋼性拉線。 在本新型一實施方式中,懸臂之上端部具有集線部, 集線部設置在懸臂與顯示器本體樞接處,用以固定拉線之 一端部,集線部具有溝槽用以使拉線順延溝槽向下延伸。 在本新型一實施方式中,當固定件插設於固定孔使底 鲁座與懸臂鎖固時,拉線、固定件及固定孔設置在同一軸線 上。 在本新型一實施方式中,集線部具有一槽體用以卡合 拉線之上端部。 本新型之顯示器模組因懸臂與顯示器本體沿第一轉轴 方向轉動而帶動拉線捲動,拉線捲動後會帶動固定件向上 提起而解除固定件與固定孔的鎖固關係。因此,懸臂與底 座可因解除鎖固關係而可沿第二轉軸方向轉動,進而調整 懸臂與底座的角度。另外,當懸臂與顯示器本體沿第一轉 轴另一方向轉動使拉線釋放時,固定件因彈性元件的彈性 5 M436174 回復,使固定件向懸臂之下端部移動。當固定件向下移動 而卡合固定孔時,懸臂與底座即呈一特定失角之鎖固狀 態。利用固定件未插設在固定孔時,可調整第二樞軸上的 懸臂與底座的旋轉角度’使固定件插設入特定的固定孔使 懸臂與底座呈一特定角度。利用第一樞軸與第二樞軸的旋 轉角度’使顯示器本體、懸臂及底座可因旋轉角度的不同 而呈現不同的空間關係,而可將本新型之顯示器^組同時 應用在桌上式、平躺式及壁掛式的全機一體式電腦上。 【實施方式】 凊參照第1圖,其繪不依照本新型一實施方式的—種 顯示器模組1〇〇之立體圖。如第1圖所示,顯示器本體 設置連接板122與懸臂120之上端部樞接,樞接後之顯示 器本體110相對於懸臂120沿第一轉軸1〇2方向旋轉。懸 臂120之下端部與底座13〇樞接,樞接後之懸臂12〇相對 於底座130沿第二轉軸1〇4方向旋轉。 另外,拉線140、固定件15〇及彈性元件160設置在 懸臂120内部,拉線14〇下端部連接固定件15〇,拉線 上端部連接集線部124,集線部124位於懸臂12〇上端部 /、··属示器本體110插接處。當顯示器本體相對於懸臂 120旋轉時,拉線14〇帶動固定件15〇移動。固定件 於心煮之下端部,彈性元件160之一端部卡抵懸臂 120之内壁且彈性元件16G相對另-端部卡抵於@1定件150 端部藉以抵推固定件15〇向懸臂12〇之下端部移動。 芯# 120之下端部與底座13〇樞接處套合一固定環17〇, 6 M436174 固定環170上設置有數個固定孔172用以供固定件15〇插 設而使懸臂120相對於底座130能夠呈現數個對應角度。 當固定件150插設在固定孔172時,底座130與懸臂 120鎖固而無法沿第二轉軸1〇4轉動。固定件15〇在無外 力拉動時會因彈性元件160帶動使固定件150插設在固定 孔Π2上’因此可限制懸臂120與底座13〇之間的轉動而 固定底座130與懸臂12〇所呈之角度。懸臂12〇之上端部 $在與顯示器本體110樞接處設置集線部124可用以固定拉 線140之一端部。在本實施例中,當固定件150插設於固 定孔172使底座130與懸臂120鎖固時,拉線140、固定 件150及固定扎172係設置在同一軸線上。 在本實施例中,第一轉軸102係平行於第二轉軸104。 而在其他實施例中’也可將第一轉軸102設計為不平行於 第二轉軸104,使顯示器本體110、懸臂120及底座130間 產生不同的旋轉角度及空間關係。 I 請參照第2圖,其纟會示第1圖所示之一種顯示器模組 100之爆炸圖。如第2圖所示,顯示器模組100包含顯示 器本體110、懸臂120、底座130、拉線140、固定件150、 彈性元件160及固定環170。其中,集線部124可設置於 懸臂120之内部,拉線140 —端部勾設在集線部124上, 另一端部連接固定件150。彈性元件160設置在固定件150 上端部,而懸臂120内部具有一容置區120a可用以容置彈 性元件160及固定件150且可使彈性元件160之一端部卡 抵於懸臂120之内壁。在本實施例中,彈性元件160係為 一壓縮彈簧,懸臂120係為一鋅合金懸臂,拉線140係為 7 M436174 一剛性拉線。但在其他實施例中,彈性元件16〇、懸臂120 及拉線140可以用其他材質製作。 懸臂120的上端部兩外側各設置一第一樞紐結構 125 ’當第一樞紐結構125與懸臂12〇及集線部124組合後 再利用外接連接板122而連接顯示器本體11(),可使懸臂 120可相對於顯示器本體ι10而轉動。懸臂12〇的下端部 設置一第二樞紐結構126,在本實施例中,第二樞紐結構 126為一扭力彈簧。當第二樞紐結構126、懸臂12〇、固定 環170及底座130組合後且固定件150未插設入固定環17〇 之固疋孔172時,可使懸臂12〇相對於底座丨3〇而轉動。 清參照第3圖,其繪示第1圖所示之一種顯示器模組 100之Α部分剖視圖。如第3圖所示,集線部124設置一 槽體127用以卡合拉線140之上端部142。槽體127的形 狀順應拉線140之上端部142,因此可將拉線14〇的上端 部142緊密的容置在槽體127内。因此,懸臂12〇帶動顯 籲示器本體110 (請參照第1圖)旋轉時,拉線140不會因 轉動而自集線部124脫落。在本實施例中,拉線14〇之上 端部呈一球形結構,而槽體127為順應拉線140之上端部 之球形凹槽。 ° 請參照第4圖,其繪示第1圖所示之一種顯示器模組 100之B部分剖視圖。如第4圖所示,懸臂12〇形成溝槽 128使拉線14〇可自槽體127(請參照第3圖)向下順延^ 槽128延伸。 、' 以下請同時參照第3圖與第4圖,當懸臂12〇沿第一 轉軸102並以一方向D]旋轉時,拉線140會因旋轉而圍繞 8 M436174 在集線部124上並順勢帶動固定件⑼向集線部以位置 移動而離開固定環170上之固定孔172。由此,縣臂12〇 與底座130解除鎖固狀態後’懸f 12()可相對於底座13〇 自由地沿第二轉軸1()4方向旋轉以調整底座13〇與懸臂㈣ 的旋轉角度。當懸臂12〇沿第—轉轴脱並以一盘方向 反方向旋轉時,拉線14〇自集線部124鬆開並沿溝槽i28 向下滑動。固定件150因拉、線14〇向下移動,且因位於容 置區隐内的彈性元件160 一端抵於懸臂12〇之内壁 懸。故雜回復時,賴元件_回彈減i^件15〇 使固定件150往固定環17G方向回推而可插設人特定之固 定孔m巾’以使懸臂120與底座13〇呈一固定角度。 另外’固定件150設置有一卡槽152且懸臂12〇設置 有-限制部129用以插設入卡槽152中。當固定件15〇因 拉線140上拉帶動或因彈性元件16〇回彈下移固定件15〇 會因限㈣129而穩定地保持一固㈣軸線移動。 。月參照第5圖’其繪示第τ圖所示之一種顯示器模組 1〇〇之外觀示思圖。當固定件15〇插設入固定環17〇之第 一固疋孔172a (以上凊參照第4圖),底座13〇與懸臂 呈一固定角度並調整懸臂12〇與顯示器本體11〇的角度 後,本實施例之顯示器模組100可作為平躺式的全機一體 式電腦的應用。 請參照第6圖’其緣示第i圖所示之一種顯示器模組 100之外觀示思圖。當固定件丨插設入固定環1之第 一固疋孔172a (以上凊參照第4圖),底座與懸臂 呈一固定角度並調整懸臂12〇與顯示器本體11〇的角度 9 M436174 後,將底座130固定在牆面上,使本實施例之顯示器模組 100可作為壁掛式的全機一體式電腦的應用。 請參照第7圖,其繪示第1圖所示之一種顯示器模組 100之外觀示意圖。當固定件150插設入固定環170之第 二固定孔172b (以上請參照第4圖),底座130與懸臂120 呈一固定角度並調整懸臂120與顯示器本體110的角度 後,本實施例之顯示器模組1〇〇可作為一般桌上式的全機 一體式電腦的應用。 由上述本新型實施方式可知,應用本新型具有以下優 點: (1) 本新型之顯示器模組,僅使用拉線牽動固定件, 利用第一轉軸轉動使集線部帶動拉線,使固定件 離開固定環上之固定孔使旋臂與底座呈活動狀 態,即可調整第二轉軸的旋轉角度使底座與懸臂 呈一特定角度,利用旋臂的旋轉角度,使顯示器 本體、懸臂及底座間呈現不同的空間關係,而可 利用此結構關係而可將全機一體式電腦同時應用 在桌上式、平躺式及壁掛式等各種形式上。 (2) 本新型之電連接器及具該電連接器之電子裝置, 利用本新型之機構設計僅需調整顯示器本體與懸 臂所呈之角度即可將顯示器本體毋須拆解任何腳 架或支架即可作為平置或壁掛的設計,因此加大 了整體產品的使用性與方便性。 【圖式簡單說明】 M436174 為讓本新型之上述和其他目的、特徵、優點與實施例 能更明顯易懂,所附圖式之說明如下: 第1圖係繪示依照本新型一實施方式的一種顯示器模 組之立體圖。 第2圖係繪示第1圖所示之一種顯示器模組之爆炸圖。 第3圖係繪示第1圖所示之一種顯示器模組之A部分 剖視圖。 第4圖係繪示第1圖所示之一種顯示器模組之B部分 剖視圖。 第5圖係繪示第1圖所示之一種顯示器模組之外觀示 意圖。 第6圖係繪示第1圖所示之一種顯示器模組之外觀示 意圖。 第7圖係繪示第1圖所示之一種顯示器模組之外觀示 意圖。 【主要元件符號說明】 100 :顯示器模組 102 :第一轉軸 104 :第二轉軸 110 :顯示器本體 120 :懸臂 120a :容置區 120b :内壁 129 :限制部 130 :底座 140 :拉線 142 :上端部 150 :固定件 152 :卡槽 160 :彈性元件 M436174 122 : 連接板 170 : 124 : 集線部 172 : 125 : 第—框紐結構 172a 126 : 第二樞紐結構 172b 127 : 槽體 128 : 溝槽 固定環 固定孔 :第一固定孔 :第二固定孔M436174 V. New description: [New technical field] The present invention relates to a display module. [Prior Art] Due to the advent of the era of digital age, the popularity of the Internet, and the change of digital transmission signals, the technology for displaying screens has been relatively changed. Among them, the invention of the liquid crystal display screen has become a mainstream product of computer display screens and home televisions due to its advantages of lightness, power saving and no radiation. Generally, when a liquid crystal display screen is placed on a table top, the liquid crystal display screen usually needs to be provided with a related bracket for carrying the entire display device on the one hand, and supporting positioning or adjusting the display device through the related bracket on the other hand. The angle. However, in recent years, in the liquid crystal display screen support structure, in addition to separately assembling and mounting the bracket and the liquid crystal display screen, the liquid crystal display screen with the bracket can be conveniently placed on the surface of the table cabinet. LCD screens are adjusted for various tilt angles. At present, the liquid crystal display device is installed on a support base, and the liquid crystal screen can be placed upright by the support base, and the hub of the two is connected between the support base and the liquid crystal screen, so that the liquid crystal screen is smashed. The New Zealand pays to pivot relative to the support, allowing the user to adjust the angle of the LCD screen as needed. In recent years, the development of an all-in-one computer that puts the electronic components required by the main unit into the display has reduced the size of the overall computer equipment, but also caused the display size to increase. . The all-in-one computer can be used on a variety of M436174 computer devices such as desktop, flat and wall mount. However, when the all-in-one computer is used on the wall mount, the cantilever bracket needs to be disassembled and adjusted to adjust the angle so that the computer is fixed on the wall and then adjusted to maintain its specific use angle. The desktop computer is used to connect the cantilever bracket of the display to the table and is a conventional computer. The flat computer is designed to change the angle between the display and the cantilever and adjust the angle of the cantilever to the base so that the display can be substantially flat. Lying on the table. Due to the conversion between the table type, the flat type and the wall type, the angle between the display and the cantilever is changed and the angle between the cantilever and the base is changed. Transforming the structure of a traditional ® all-in-one computer requires additional tool disassembly and assembly, resulting in a complicated process, which makes it inconvenient for the whole-machine integrated computer to change the form of use. [New content] In view of the problems caused by the prior art, the present invention provides a display module to overcome the problems caused by the prior art. According to an embodiment of the present invention, a display module includes a display body, a cantilever, a wire, a fixing member, an elastic member, a base, and a fixing ring. The upper end of the cantilever is pivotally coupled to the display body, wherein the display body rotates relative to the cantilever in a direction of the first axis of rotation. The lower end of the cable is connected to the fixing member, and the upper end of the cable is connected to the upper end of the cantilever to be connected with the display body. The elastic member is inserted into the cable, wherein one end of the elastic member is engaged with the inner wall of the cantilever and the elastic member is engaged with the other member against the other end for abutting the fixing member. The lower end of the cantilever is pivotally connected to the base, and the cantilever is rotated relative to the base in the second rotation axis direction. When the display body rotates relative to the cantilever, the wire pulls the fixing member away from each fixing hole or releases the fixing member to make the fixing member only Resilient 4 M436174 components resist. The fixing ring is sleeved at a pivotal end of the lower end of the cantilever and the base. The fixing ring is provided with a plurality of fixing holes for inserting the fixing member so that the cantilever can present a plurality of corresponding angles with respect to the base. In an embodiment of the invention, the display body further includes a connecting plate for connecting the cantilever. In an embodiment of the present invention, the cantilever further includes an accommodating area for accommodating the elastic member and the fixing member. In an embodiment of the invention, the elastic element is a compression spring. In an embodiment of the invention, the cantilever is a zinc alloy cantilever. In an embodiment of the invention, the first axis of rotation is parallel to the second axis of rotation. In an embodiment of the present invention, the cable is a steel cable. In an embodiment of the present invention, the upper end portion of the cantilever has a line collecting portion, and the collecting portion is disposed at a pivotal connection between the cantilever and the display body for fixing one end of the pulling wire, and the collecting portion has a groove for the wire to be extended by the groove Extend downwards. In an embodiment of the present invention, when the fixing member is inserted into the fixing hole to lock the base and the cantilever, the wire, the fixing member and the fixing hole are disposed on the same axis. In an embodiment of the present invention, the hub portion has a slot for engaging the upper end portion of the cable. The display module of the present invention drives the pull wire to rotate due to the rotation of the cantilever and the display body in the direction of the first rotating shaft. After the wire is rolled, the fixing member is lifted upward to release the locking relationship between the fixing member and the fixing hole. Therefore, the cantilever and the base can be rotated in the direction of the second rotating shaft by the unlocking relationship, thereby adjusting the angle of the cantilever to the base. Further, when the cantilever and the display body are rotated in the other direction of the first rotating shaft to release the cable, the fixing member is restored by the elasticity of the elastic member 5 M436174, and the fixing member is moved toward the lower end portion of the cantilever. When the fixing member moves downward to engage the fixing hole, the cantilever and the base are locked in a specific lost angle. When the fixing member is not inserted into the fixing hole, the rotation angle of the cantilever to the base on the second pivot can be adjusted to insert the fixing member into the specific fixing hole so that the cantilever is at a specific angle to the base. The display body, the cantilever and the base can have different spatial relationships due to different rotation angles by using the rotation angles of the first pivot axis and the second pivot axis, and the display device of the present invention can be simultaneously applied to the desktop, Flat-bed and wall-mounted all-in-one computer. [Embodiment] Referring to Fig. 1, there is shown a perspective view of a display module 1 according to an embodiment of the present invention. As shown in Fig. 1, the display body is provided with a connecting plate 122 pivotally connected to the upper end of the cantilever 120, and the pivoted display body 110 is rotated relative to the cantilever 120 in the direction of the first rotating shaft 1〇2. The lower end of the cantilever 120 is pivotally connected to the base 13A, and the pivoted cantilever 12 is rotated relative to the base 130 in the direction of the second rotating shaft 1〇4. In addition, the wire 140, the fixing member 15〇 and the elastic member 160 are disposed inside the cantilever 120, the lower end of the wire 14 is connected to the fixing member 15〇, the end of the wire is connected to the collecting portion 124, and the collecting portion 124 is located at the upper end of the cantilever 12 /, · · The main body of the display body 110 is inserted. When the display body rotates relative to the cantilever 120, the pull wire 14 turns the fixed member 15 to move. The fixing member is at the lower end of the heart boiling portion, one end of the elastic member 160 is caught against the inner wall of the cantilever 120 and the elastic member 16G is abutted against the other end portion of the @1 fixing member 150 to thereby push the fixing member 15 toward the cantilever 12 The end moves underneath. A fixing ring 17 is sleeved at a lower end of the core #120 and a base 13〇, and a fixing hole 172 is disposed on the fixing ring 170 for the fixing member 15 to be inserted to make the cantilever 120 relative to the base 130. Can represent several corresponding angles. When the fixing member 150 is inserted into the fixing hole 172, the base 130 and the cantilever 120 are locked and cannot be rotated along the second rotating shaft 1〇4. The fixing member 15 is driven by the elastic member 160 to insert the fixing member 150 on the fixing hole 2 when no external force is pulled. Therefore, the rotation between the cantilever 120 and the base 13 can be restricted, and the fixed base 130 and the cantilever 12 can be fixed. The angle. The upper end portion of the cantilever 12 is disposed at a pivotal connection with the display body 110 to fix one end of the pull wire 140. In the present embodiment, when the fixing member 150 is inserted into the fixing hole 172 to lock the base 130 and the cantilever 120, the wire 140, the fixing member 150 and the fixing wire 172 are disposed on the same axis. In the present embodiment, the first rotating shaft 102 is parallel to the second rotating shaft 104. In other embodiments, the first rotating shaft 102 can also be designed not to be parallel to the second rotating shaft 104, so that different rotation angles and spatial relationships between the display body 110, the cantilever 120 and the base 130 are generated. I Please refer to Fig. 2, which will show an exploded view of a display module 100 shown in Fig. 1. As shown in Fig. 2, the display module 100 includes a display body 110, a cantilever 120, a base 130, a pull wire 140, a fixing member 150, an elastic member 160, and a fixing ring 170. The line portion 124 can be disposed inside the cantilever 120. The end of the wire 140 is hooked on the line portion 124, and the other end is connected to the fixing member 150. The elastic member 160 is disposed at the upper end of the fixing member 150, and the accommodating portion 120a has an accommodating portion 120a for accommodating the elastic member 160 and the fixing member 150 and engaging one end of the elastic member 160 against the inner wall of the cantilever 120. In the present embodiment, the elastic member 160 is a compression spring, the cantilever 120 is a zinc alloy cantilever, and the cable 140 is a 7 M436174 rigid pull wire. However, in other embodiments, the elastic member 16 悬, the cantilever 120, and the pull wire 140 can be made of other materials. A first pivot structure 125 ′ is disposed on both outer sides of the upper end portion of the cantilever 120. When the first pivot structure 125 is combined with the cantilever 12 〇 and the concentrating portion 124 and then connected to the display body 11 by using the external connecting plate 122, the cantilever 120 can be It is rotatable relative to the display body ι10. A second pivot structure 126 is disposed at a lower end portion of the cantilever 12A. In the present embodiment, the second pivot structure 126 is a torsion spring. When the second pivot structure 126, the cantilever 12 〇, the fixing ring 170 and the base 130 are combined and the fixing member 150 is not inserted into the fixing hole 172 of the fixing ring 17 ,, the cantilever 12 可使 can be made relative to the base 〇 Turn. Referring to Fig. 3, a partial cross-sectional view of a display module 100 shown in Fig. 1 is shown. As shown in Fig. 3, the hub portion 124 is provided with a slot body 127 for engaging the upper end portion 142 of the cable 140. The shape of the groove 127 conforms to the upper end portion 142 of the wire 140, so that the upper end portion 142 of the wire 14b can be tightly received in the groove body 127. Therefore, when the boom 12 is rotated by the display main body 110 (refer to Fig. 1), the wire 140 is not detached from the concentrating portion 124 due to the rotation. In the present embodiment, the upper end portion of the pull wire 14A has a spherical structure, and the groove body 127 is a spherical groove corresponding to the upper end portion of the pull wire 140. Please refer to FIG. 4, which is a cross-sectional view showing a portion B of a display module 100 shown in FIG. 1. As shown in Fig. 4, the cantilever 12 is formed with a groove 128 so that the wire 14 can extend downward from the groove 127 (see Fig. 3). Referring to Figures 3 and 4 below, when the cantilever 12 is rotated along the first rotating shaft 102 and in a direction D], the pulling wire 140 is rotated around the 8 M436174 on the collecting portion 124. The fixing member (9) moves away from the fixing portion 172 on the fixing ring 170 in a positional position. Therefore, after the county arm 12 〇 and the base 130 are unlocked, the suspension d 12 ( ) can be freely rotated in the second rotation axis 1 ( ) 4 direction relative to the base 13 以 to adjust the rotation angle of the base 13 〇 and the cantilever ( 4 ). . When the cantilever 12 is disengaged along the first-rotating shaft and rotated in the opposite direction of the disk direction, the wire 14 is loosened from the wire collecting portion 124 and slid downward along the groove i28. The fixing member 150 is moved downward by the pulling and the wire 14 ,, and one end of the elastic member 160 hidden in the accommodating portion abuts against the inner wall of the cantilever 12 . Therefore, when the repulsion is repeated, the component _ rebound is reduced by 15 〇, so that the fixing member 150 is pushed back in the direction of the fixing ring 17G, and the fixing hole m of the specific hole can be inserted to fix the cantilever 120 and the base 13 一. angle. Further, the fixing member 150 is provided with a card slot 152 and the cantilever 12 is provided with a restricting portion 129 for being inserted into the card slot 152. When the fixing member 15 is pulled up by the pulling wire 140 or moved back by the elastic member 16 下, the fixing member 15 稳定 stably maintains a solid (four) axis movement due to the limit (four) 129. . Referring to Fig. 5, a schematic view of a display module 1 shown in Fig. τ is shown. When the fixing member 15 is inserted into the first fixing hole 172a of the fixing ring 17 (refer to FIG. 4 above), the base 13 is at a fixed angle with the cantilever and the angle between the cantilever 12 and the display body 11 is adjusted. The display module 100 of the embodiment can be used as a flat-type full-computer integrated computer. Please refer to Fig. 6 for the appearance of a display module 100 shown in Fig. i. When the fixing member is inserted into the first fixing hole 172a of the fixing ring 1 (refer to FIG. 4 above), the base and the cantilever are at a fixed angle and the angle of the cantilever 12 〇 and the display body 11 9 9 M436174 is adjusted, The base 130 is fixed on the wall surface, so that the display module 100 of the embodiment can be used as a wall-mounted full-computer integrated computer. Please refer to FIG. 7 , which illustrates a schematic view of a display module 100 shown in FIG. 1 . When the fixing member 150 is inserted into the second fixing hole 172b of the fixing ring 170 (refer to FIG. 4 above), the base 130 and the cantilever 120 are at a fixed angle and the angle between the cantilever 120 and the display body 110 is adjusted, the embodiment is The display module 1 can be used as a general desktop integrated computer. According to the above-mentioned novel embodiment, the application of the present invention has the following advantages: (1) The display module of the present invention only uses the pull wire to pull the fixing member, and the first rotating shaft rotates to cause the collecting portion to drive the pulling wire to fix the fixing member away from the fixing member. The fixing hole on the ring makes the arm and the base move, and the rotation angle of the second shaft can be adjusted to make the base and the cantilever at a specific angle. The rotation angle of the arm is used to make the display body, the cantilever and the base differently. Spatial relationship, and this structural relationship can be used to simultaneously apply the whole-computer integrated computer to various forms such as desktop, flat and wall-mounted. (2) The electrical connector of the present invention and the electronic device having the same, the mechanism design of the present invention only needs to adjust the angle between the display body and the cantilever to disassemble any stand or bracket It can be used as a flat or wall-mounted design, thus increasing the usability and convenience of the overall product. BRIEF DESCRIPTION OF THE DRAWINGS The above and other objects, features, advantages and embodiments of the present invention will become more apparent and understood. A perspective view of a display module. Figure 2 is an exploded view of a display module shown in Figure 1. Figure 3 is a cross-sectional view showing a portion A of the display module shown in Figure 1. Figure 4 is a cross-sectional view showing a portion B of the display module shown in Figure 1. Fig. 5 is a view showing the appearance of a display module shown in Fig. 1. Fig. 6 is a view showing the appearance of a display module shown in Fig. 1. Fig. 7 is a view showing the appearance of a display module shown in Fig. 1. [Main component symbol description] 100: Display module 102: First rotating shaft 104: Second rotating shaft 110: Display body 120: Cantilever 120a: accommodating area 120b: Inner wall 129: Restricting part 130: Base 140: Pulling line 142: Upper end Portion 150: fixing member 152: card slot 160: elastic member M436174 122: connecting plate 170: 124: hub portion 172: 125: first frame structure 172a 126: second hinge structure 172b 127: slot body 128: groove fixing Ring fixing hole: first fixing hole: second fixing hole
1212