M264785 八、新型說明: 【新型所屬之技術領域】 ^創作係有關於一種藉由固體顆粒移動以維持平衡之可 度之如is,其主魏行胃知技 彳 4向嶋傾斜角 調整顯示器之傾斜角度。 為糊賊式定位卡合或球面軌道來 【先前技術】 目前顯示器,例如··電視、液晶顧 的日新月異,消費者除了考量輕薄之造幕等’隨著科技 外型、精巧性和使財便性更為重視。…旦,之外’胁顯示器之 放在客應之仏;㈣概_將顯示器擺 倒’對於使用者來說較為不便。此外,_般、1j 然其機構皆為彻-麟合奸犁之方雖有局補度調整之功 替。 入口次料之方式,並無法朝多方向進行傾斜角度 》a 4麵顯不面細前後方向傾 之功能, 之調 【新型内容】 之顯於解決上述問題而提供—種可多方向調整傾斜角度 平衡狀態/、 ^ _纽,方便制者可«擺放顯示ϋ而能維持於 „,供-種可多方向調整傾斜角度之顯示器,包括—顯示器主體以及 η蜱面基座。®弧球面基座係與顯示器主體相連接,用以支承顯示哭主體, 聊瓜球面基座射空並具有填充物,勤令填絲於㈣球面基翻部移動 至一既定平衡狀態’達成可依圓弧球面基座之圓弧球面而多方向調整顯示器傾 〇801-A31〇76TWF(5.0) . M264785 斜角度之功能。 又圓弧球面基座更包括一上蓋部及一圓弧底部,顯示器主體係設置於上 蓋部上,且圓弧底部與上蓋部之間係構成一容納冑,用以容納上述填充物。 又,填充物包括複數個可移動之粒狀物,設置於圓弧底部内。 又’粒狀物係以佔圓弧底部體積之6〇%至9〇%較佳,其中又以佔75%至 85%更佳。 又,圓弧底部可由彈性材質所製成。 又,顯示器主體更包括-第一卡合部,圓弧球面基座更包括—第二卡合部, 藉由上述第卡合^與第一卡合部相連接,進而連接顯示器主體與圓弧球面基 座。 又,第一卡合部可為一開口,第二卡合部可為一扣合部,當顯示器主體與 圓弧球面基座相連接時,扣合部係卡合於開口内。 又’顯示器可為液晶顯示器(Liguid Crystal Display,LCD)、電視、電漿顯示 器(PlasmaDisplay panel,PDP)、有機發光顯示器(〇rganic Light Emitt_ OLED)等。 為使本創作之上述及其他目的、構造、功效、特徵和優點能更明顯易懂, 下文特舉數個具體之較佳實施例,並配合所附圖式做詳細說明。 【實施方式】 以下列舉具體之實施例,對本創作揭示之各形態内容加以詳細說明。雖然 本創作之顯示器100主要係以液晶顯示器為例子提出說明,但本創作之特徵亦 可應用在其它的顯示器,例如:電視、電漿顯示器(PlasmaDiSplay panel,pDp)、 有機發光顯示器(Organic Light Emitting Display,0LED)等。 第1圖顯示本創作之可多方向調整傾斜角度之顯示器1〇〇之立體示意圖。 第2A圖顯示本創作之可多方向調整傾斜角度之顯示器100之側視示意圖。 如第1及2A圖所示,本創作之可多方向調整傾斜角度之顯示器100包括一 0801-A31076TWF(5.0) 6 M264785 體1G及-辆基趋。赫器主體1Q係以可拆卸 弧球面基座20,圓弧球面基座2〇係用以支承顯示器主體ι〇,使复可鮮圓= 球面基座20之圓弧球_多方向調整顯示器之傾斜肢,細節如朗述以 f 2B圖顯示本創作之可多方向調整傾斜角度之顯示器之正視圖。由第迚 圖可看出,、圓弧球面基座2G之截面為弦弧形。在另_變化例中,如第π 不,圓弧球面基座20之截面亦可為半橢圓形。 。 第3圖顯示本創作之可多方向調整傾斜角度之顯示器刚 ==合部11舆第二卡合部22相連接’進― 在本實=,顯示器主體10之第一卡合部u可為一開口,圓弧球面基 接8士 t人部22為一扣合部’當顯示器主體10與圓弧球面基座20相連 接¥,扣合部22係卡合於開口 u内。 圓弧球面基座20具有一上蓋部2⑴、一下蓋部加及一圓弧 =主㈣係設置於上蓋㈣上,上蓋㈣可由金屬製成,用以增加整體 、,·。構強度’而下蓋部203可由塑膠製成,並藉由複數個螺釘%固定上則、 下蓋部203及圓弧底部202。 | 地可在為另γ=Γ弧球面基座20之上蓋獅、下蓋釋及園弧底部 /圓弧球面基座20内部更具有複數填充物,圓弧底部搬與上蓋部別 ^間係構成-容納空間’用以容納前述填充物。在本實施例中,填充物為可移 之粒狀物25 0又置於中空的圓弧底部2〇2内。再者,圓弧底部搬為一圓弧 :,藉由令填錄於圓弧底部202内移至一平衡位置,即可使得顯示器娜可 、去水平面上沿者圓弧底部2〇2的圓弧球面朝多方向調整顯示器之傾斜角度,而 由到能依照使用者之需求任意調整顯轉傾斜方向及肢之功效。在本實施例 I狀物25不可填滿則述谷納空間,係以佔圓弧内部容納空間體積至 °801-A31076TWF(5.0) 7 M264785 90/。之間為佳,並以佔75%至85%更佳。圓弧球面基座2〇具有兩個對應之孔 洞23卜232與一塑膠蓋23,可在圓弧球面基座2〇植裝後,藉由孔洞23卜 232來填充粒狀物25關弧内部容納空間2〇2 Θ,亦可藉此調整粒狀物%佔圓 弧内部容納空間202之體積比例。在此,塑膠蓋23係設置於孔洞231,用於使 粒狀物25保持在圓弧底部2〇2内。又,圓弧底部2〇2可由剛性或彈性材質製成。 一立進一步而言’第仏至扣圖係顯示本創作之顯示器100於不同角度之側視 示意圖。如第4A圖所示,顯示器100原本維持在直立狀態。當使用者將顯示器 1〇〇朝向後方傾斜-特定角度時,粒狀物25即會如第4B圖中符號所示方向,快 速移動至-平衡狀態,以使顯示器觸維持在此傾斜角度而站立不動。又如第 4C圖所不,當使用者將顯示器1〇〇朝向前方傾斜至另一特定角度時,粒狀物Μ 亦曰如同箭號所不方向’快速移動至另一平衡狀態,以使顯示器刚維持在此 傾斜角度而站立不動。 因此,藉由位於圓弧底部2〇2中之填充物的移動及平衡,即可控制顯示器 100於水平面Η上朝多個方向傾斜,而達到可全方位調整顯示關斜角度之功 效。 #如上所述,本創作提供另一種全新思維之可多方向調整傾斜角度之顯示 '其可自由碰顯4的肢涵蓋四面八方,方便使用者可隨意擺放顯示器 而此、准持於平衡㈣,並提供了高靈活度的觀看肖度,同時亦具有結構簡單、 組裝容易等特點。 々雖然本創作已以較佳實施例揭露如上,然其並非用以限定本創作,任何熟 省此員技藝者’作些許之更動與潤飾應不脫離本創作之範圍,本創作之保護範 圍當視申請專利範圍所界定者及其均等物為準。 ^ 【圖式簡單說明】 第圖,員示本創作之可多方向調整傾斜角度之顯示器之立體示意圖; 第2A圖顯示本創作之可多方向調整傾斜角度之顯示器之側視示意圖; 0801-A31076TWF(5.0) 8 M264785 第2B圖顯示本創作之可多方向調整傾斜角度之顯示器之正視圖; 圖第2C圖顯示本創作之可多方向調整傾斜角度之顯示器之—變化例之正视 第3圖顯示本創作之可多方向調整傾斜角度之顯示器之分解示意圖; 备、4B、4C圖係·本創作之可多方向調整傾斜角度之顯示器於不同 角度之側視示意圖。 【主要元件符號說明】 10〜顯示器主體; 20〜圓弧球面基座; 202〜圓弧底部; 22〜第二卡合部,· 231、232〜孔洞; Η〜水平面。 11〜第一 ^^合部; 201〜上蓋部; 203〜下蓋部; 23〜塑膠蓋; 25〜粒狀物(内部填充物); 0801-A31076TWF(5.0) 9M264785 8. Description of the new type: [Technical field to which the new type belongs] ^ Creation is related to a measure of maintaining the balance by the movement of solid particles, such as is. slope. [Previous technology] Current displays, such as TVs and LCDs, are changing with each passing day. Consumers are not only thinking about thin and light curtains, etc. ”With the appearance of technology, sophistication and convenience Sex is more important. … Once, outside of the “threatening the display is placed in the customer's right place; general _ put the display down” is more inconvenient for users. In addition, _ like, 1j, although their institutions are Che-Lin's rape plow, there are some functions to adjust the bureau. The method of importing secondary materials does not allow tilting angles in multiple directions. "A 4-sided display does not display the thin tilting function in the front and back direction. The new content is provided to solve the above problems.-A tilting angle can be adjusted in multiple directions. Balance status /, ^ _ New button, it is convenient for the manufacturer to «position the displayϋ and maintain it at„, for-a kind of display that can adjust the tilt angle in multiple directions, including-the display main body and the η tick surface base. ® arc spherical base The pedestal is connected to the main body of the display to support the main body of the display. The spherical base of Liaogua shoots empty and has a filler. The ground wire is moved to a predetermined equilibrium state on the base of the ball. The base of the arc spherical surface and multi-directional adjustment of the display tilt 0801-A31〇76TWF (5.0). M264785 function of oblique angle. The arc base also includes an upper cover and an arc bottom. The main system of the display is set at On the upper cover part, an accommodating grate is formed between the arc bottom and the upper cover part to accommodate the above-mentioned filling. In addition, the filling includes a plurality of movable granules and is arranged in the bottom of the arc. The object is preferably 60% to 90% of the volume at the bottom of the arc, and more preferably 75% to 85%. The bottom of the arc may be made of an elastic material. Furthermore, the display body further includes -The first engaging portion and the arc spherical base further include a second engaging portion, which is connected to the first engaging portion through the first engaging portion ^, and further connects the display main body and the arc spherical base. The first engaging portion may be an opening, and the second engaging portion may be an engaging portion. When the display body is connected to the circular spherical base, the engaging portion is engaged in the opening. Also, the display may be Liquid crystal display (Liguid Crystal Display, LCD), television, plasma display panel (PDP), organic light emitting display (〇rganic Light Emitt_OLED), etc. In order to achieve the above and other purposes, structure, efficacy, features and The advantages can be more obvious and easy to understand, and the following specific examples will be given in detail, and will be described in detail in conjunction with the attached drawings. [Embodiment] The following lists specific examples to explain in detail the various forms and contents disclosed in this creation. .Although this creation The display 100 is mainly explained by taking a liquid crystal display as an example, but the characteristics of this creation can also be applied to other displays, such as: TV, PlasmaDiSplay panel (pDp), Organic Light Emitting Display (0LED) Etc. Fig. 1 shows a three-dimensional schematic diagram of the display 100 capable of adjusting the tilt angle in various directions in this creation. Fig. 2A shows a schematic side view of the monitor 100 capable of adjusting the tilt angle in multiple directions in this creation. As shown in Figs. 1 and 2A As shown in the figure, the multi-directional adjustable tilt display 100 of this creation includes a 0801-A31076TWF (5.0) 6 M264785 body 1G and a car-based trend. The main body 1Q of the device is a detachable arc spherical base 20, and the arc spherical base 20 is used to support the display body ι〇, so that the fresh circle = the spherical ball of the spherical base 20_multi-directional adjustment of the display Tilt limb, details as shown in the f 2B diagram, the front view of the display that can be tilted in many directions can be adjusted. As can be seen from the second figure, the cross section of the arc-shaped spherical base 2G is a chord arc. In another variation, if π is not the same, the cross section of the circular arc spherical base 20 may be a semi-ellipsoid. . Fig. 3 shows the display which can adjust the tilt angle in multiple directions in this creation. The connection portion 11 and the second engagement portion 22 are connected to each other. In the actual situation, the first engagement portion u of the display body 10 may be With an opening, the arc-shaped spherical base is connected to the 8-person portion 22 as a fastening portion. When the display main body 10 is connected to the arc-shaped spherical base 20, the fastening portion 22 is engaged with the opening u. The arc-shaped spherical base 20 has an upper cover part 2⑴, a lower cover part plus an arc = the main cover is arranged on the upper cover ㈣, and the upper cover ㈣ may be made of metal to increase the whole. The lower cover portion 203 can be made of plastic, and the upper cover, the lower cover portion 203, and the arc bottom portion 202 are fixed by a plurality of screws. The ground can cover the lion, the lower cap, and the arc bottom / arc sphere base 20 on the other γ = Γ arc spherical base 20. There are multiple fillers inside, and the arc bottom is moved to the upper cover. The structure-accommodating space is used to accommodate the aforementioned filler. In this embodiment, the filling material is a removable granular material 250 and is placed in the hollow arc bottom 202. In addition, the bottom of the arc is moved to an arc: By moving the fill in the bottom 202 of the arc to a balanced position, the display can be removed from the circle on the horizontal plane along the bottom of the arc 2 The spherical surface of the display adjusts the tilt angle of the display in multiple directions, and the effect of turning the tilt direction and the limbs can be adjusted arbitrarily according to the needs of the user. In this embodiment, if the object 25 cannot be filled, the trough space is described, which occupies the volume of the interior space of the arc to ° 801-A31076TWF (5.0) 7 M264785 90 /. It is preferably between 75% and 85%. The arc spherical base 20 has two corresponding holes 23b 232 and a plastic cover 23. After the arc spherical base 20 is implanted, the particles 25 can be filled by the holes 23b 232. The accommodating space 2202 Θ can also be used to adjust the volume ratio of the percentage of particles to the interior accommodating space 202 of the arc. Here, the plastic cover 23 is provided in the hole 231 to keep the granular material 25 in the arc bottom 202. The arc-shaped bottom portion 202 may be made of a rigid or elastic material. Yili further stated that the first to the second pictures are schematic side views of the display 100 of this creation at different angles. As shown in FIG. 4A, the display 100 is originally maintained in an upright state. When the user tilts the display 100 toward the rear by a specific angle, the granular material 25 will quickly move to the -balanced state as shown by the symbol in Figure 4B, so that the display can stand at this tilt angle and stand Do not move. As shown in Fig. 4C, when the user tilts the display 100 toward the front to another specific angle, the granular material M moves quickly to another equilibrium state like the direction of the arrow to make the display Just stay at this inclined angle and stand still. Therefore, by moving and balancing the filling material located at the bottom of the arc 202, the display 100 can be controlled to tilt in multiple directions on the horizontal plane Η, thereby achieving the effect of adjusting the tilt angle of the display in all directions. #As mentioned above, this creation provides another brand-new display that can adjust the tilt angle in multiple directions. Its limbs can be freely touched. The limbs cover all directions. It is convenient for users to place the display at will. It also provides a highly flexible viewing angle, and also has the characteristics of simple structure and easy assembly. 々Although this creation has been disclosed as above with a preferred embodiment, it is not intended to limit this creation. Any skilled artist in this province should make some changes and retouches without departing from the scope of this creation. The scope of protection of this creation should be Subject to the definition of the scope of the patent application and its equivalent. ^ [Schematic description] Figure 3 shows a schematic diagram of the monitor that can adjust the tilt angle in multiple directions. Figure 2A shows a schematic diagram of the side view of the monitor that can adjust the tilt angle in multiple directions. 0801-A31076TWF (5.0) 8 M264785 Figure 2B shows the front view of the monitor with multi-directional adjustment of the tilt angle; Figure 2C shows the monitor with the multi-directional adjustment of tilt-angle of the creative—the front view of the variation shown in Figure 3 The exploded schematic diagram of the display that can adjust the tilt angle in multiple directions in this creation; Figures, 4B, 4C are the schematic diagrams of the side views of the monitor that can adjust the tilt angle in multiple directions at different angles. [Description of main component symbols] 10 ~ monitor body; 20 ~ arc spherical base; 202 ~ arc bottom; 22 ~ second engaging part, 231, 232 ~ hole; Η ~ horizontal plane. 11 ~ first ^^ joint; 201 ~ upper cover; 203 ~ lower cover; 23 ~ plastic cover; 25 ~ grain (inner filling); 0801-A31076TWF (5.0) 9