CN105674013B - And a display device supporting means - Google Patents

And a display device supporting means Download PDF

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Publication number
CN105674013B
CN105674013B CN201610157809.4A CN201610157809A CN105674013B CN 105674013 B CN105674013 B CN 105674013B CN 201610157809 A CN201610157809 A CN 201610157809A CN 105674013 B CN105674013 B CN 105674013B
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direction
coil
magnetic field
torque
current
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CN201610157809.4A
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CN105674013A (en
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费博钊
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费博钊
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Abstract

本发明揭露一种支撑装置以及显示装置,支撑装置包括连接部、支架、线圈模组以及磁性组件。 The present invention discloses a supporting means and a display means, the support means includes a connecting portion, the holder, the coil module and the magnetic assembly. 连接部固定连接本体;支架的第一端部设置铰链结构,铰链结构具有转轴,铰链结构藉由转轴的转动带动连接部转动,其中连接部以及本体整体相对铰链结构具有第一扭矩;线圈模组,包括线圈以及线圈控制电路,线圈控制电路提供电流于线圈,且线圈固定设置于转轴上;磁性组件形成第一磁场,其中磁性组件的两个磁极分别位于转轴的相对的两侧;其中,线圈通电后与第一磁场相互作用产生第二扭矩,且第二扭矩大于第一扭矩,使得转轴转动以带动连接部转动。 Connecting portion fixedly connected to the body; a first end portion of the hinge structure, the hinge structure of the stent having a rotary shaft, a hinge structure is rotated by the rotation drive connected to the rotation shaft, wherein the connection portion and a body integrally opposite hinge structure having a first torque; coil module , the control circuit includes a coil and a coil, the coil control circuit provides a current to the coil, and the coil fixed to the rotating shaft; magnetic component forming a first magnetic field, wherein the magnetic component of the two magnetic poles are located on opposite sides of the shaft; wherein the coil a second torque after power interaction of the first magnetic field, and the second torque is larger than the first torque, so that the axis of rotation to drive the rotation of the connecting portion. 本发明的支撑装置不需要使用者手握本体即可调整本体的倾斜角度。 The support device of the invention does not require the user to adjust the inclination angle of the main body grip body.

Description

支撑装置及显示装置 And a display device supporting means

技术领域 FIELD

[0001] 本发明关于一种支撑装置及显示装置,尤其涉及一种可调整角度的支撑装置及具有该支撑装置的显示装置。 [0001] The present invention relates to a support device and a display device, particularly to an angle adjustable supporting device and a display device having the support means.

背景技术 Background technique

[0002] —般而言,显示装置包括显示器本体以及支撑装置两个部分,显示器本体用以显示画面,支撑装置则用以支撑显示器本体,以防止显示器本体倾倒,并且在支撑装置端部设置有铰链结构,以便于使用者调整显示器本体的倾角,达到最适合最舒适的观看角度。 [0002] - In general, the display device comprising a display body and a supporting device in two parts, a display screen for displaying the body, support means for supporting the display main body, a display main body to prevent dumping, and the support means provided at the end portion hinge structure, in order to display a user reclining body, the most suitable to achieve the most comfortable viewing angle.

[0003] 现有技术中,铰链结构的主要功能为调整显示器本体上下倾斜及左右旋转的角度,以符合使用者的舒适性。 [0003] In the prior art, the main function of the hinge structure of the display body is inclined to adjust the angle of rotation vertically and horizontally, to meet the comfort of the user. 但是如果要调整显示器本体的角度则必须要手动碰触显示器本体即屏幕才能实现角度的调整,但是,在调整角度的过程中,往往会出现手触碰显示器本体即屏幕的问题,上述会导致屏幕上出现指纹,影响屏幕的美观以及观看的舒适度。 But if you want to adjust the angle of the display body must manually touch the display screen in order to achieve the body that is to adjust the angle, but in the process of adjusting the angle, often a problem hand touch screen display of the body that is the cause screen the emergence of fingerprints, affect the screen appearance and viewing comfort. 因此如何在不接触显示器本体的情况下实现显示器本体的自动调整是现今需要解决的问题。 So how to automatically adjust the display body without touching the display body is now the problem to be solved.

发明内容 SUMMARY

[0004] 因此,本发明的目的之一在于提供一种支撑装置及显示装置,用以解决现有技术中调整显示器本体角度时容易发生手指触碰显示器本体的问题。 [0004] Accordingly, an object of the present invention is to provide a support device and a display device, to solve the problem easily occurs when the finger touches the display body panel display body to adjust the angle of the prior art.

[0005] 为达上述目的,本发明提供一种支撑装置,该支撑装置包括:连接部,该连接部用以固定连接本体;支架,该支架的第一端部设置有铰链结构,该铰链结构具有转轴,该铰链结构藉由该转轴的转动带动该连接部转动,其中该连接部以及该本体整体相对该铰链结构具有第一扭矩;线圈模组,包括线圈以及连接于该线圈两端的线圈控制电路,该线圈控制电路提供电流于该线圈,且该线圈固定设置于该转轴上;磁性组件,形成第一磁场,其中该磁性组件的两个磁极分别位于该转轴的相对的第一侧与第二侧,且该线圈设置于该两个磁极之间;其中,该线圈通电后与该第一磁场相互作用产生第二扭矩,且该第二扭矩大于该第一扭矩,使得该转轴转动以带动该连接部转动。 [0005] To achieve the above object, the present invention provides a supporting device, the supporting apparatus comprising: a connecting portion, the connecting portion is fixedly connected to the body; bracket, a first end portion of the bracket is provided with a hinge structure, the hinge structure having a shaft, the hinge assembly by rotation of the drive shaft rotates the connecting portion, the hinge structure wherein the connecting portion and a body having a first integral opposing torque; coil module comprising a coil and a coil connected across the coil of the control circuit, the coil control circuit provides a current to the coil, and the coil is disposed on the fixed shaft; magnetic component forming a first magnetic field, wherein two poles of the magnetic assembly are located opposite the first side of the rotating shaft two sides, and the coil is disposed between the two poles; wherein, after the coil is energized to generate a second magnetic field interacts with the first torque and the second torque is larger than the first torque, so that the axis of rotation to drive the rotatable connector portion.

[0006] 进一步地,该支撑装置还包括弹性元件,该弹性元件的相对两端分别连接于该连接部与该转轴,该弹性元件用以提供该连接部转动后的回复力。 [0006] Further, the supporting means further comprising an elastic member, opposite ends of the resilient elements are connected to the connecting portion and the shaft, the resilient member for providing a restoring force rotated after the connecting portion.

[0007] 进一步地,该支撑装置还包括弹性元件,该弹性元件的相对两端分别连接于该连接部与该线圈,该弹性元件用以提供该连接部转动后的回复力。 [0007] Further, the supporting means further comprising an elastic member, opposite ends of the resilient elements are connected to the connecting portion of the coil, the resilient member for providing a restoring force rotated after the connecting portion.

[0008] 进一步地,当该线圈具有第一电流方向,该第一磁场具有第一磁场方向时,该第一磁场与通电后的该线圈相互作用产生沿第三方向的第一子扭矩,使得该转轴沿该第三方向转动并带动该连接部沿该第三方向转动;当该线圈具有第二电流方向,该第一磁场具有第一磁场方向时,该第一磁场与通电后的该线圈相互作用产生沿第四方向的第二子扭矩,使得该转轴沿该第四方向转动并带动该连接部沿该第四方向转动,其中该第一电流方向与该第二电流方向相反,该第三方向与该第四方向相反。 [0008] Further, when the coil has a first current direction, the first magnetic field having a first direction, the first magnetic field of the coil is energized after the interaction with the third direction of the first sub-torque, such that the shaft rotates in the third direction and drives the connection portion rotates in the third direction; and when the coil has a second current direction, the first magnetic field having a first direction, the first magnetic field after the energization of the coil interaction fourth direction of the second sub-torque, such that the axis of rotation and drives the connection portion rotates in the fourth direction along the fourth direction, wherein the first current and the second current direction opposite to the direction of the second three directions opposite to the fourth direction.

[0009] 进一步地,还包括电流换向器,用以改变该线圈的电流方向。 [0009] Furthermore, further comprising a current commutator, for changing the current direction of the coil.

[0010] 进一步地,当该线圈具有第一电流方向,该第一磁场具有第一磁场方向时,该第一磁场与通电后的该线圈相互作用产生沿第三方向的第一子扭矩,使得该转轴沿该第三方向转动并带动该连接部沿该第三方向转动;当该线圈具有第一电流方向,该第一磁场具有第二磁场方向时,该第一磁场与通电后的该线圈相互作用产生沿第五方向的第三子扭矩,使得该转轴沿该第五方向转动并带动该连接部沿该第五方向转动,其中该第一磁场方向与该第二磁场方向相反,该第三方向与该第五方向相反。 [0010] Further, when the coil has a first current direction, the first magnetic field having a first direction, the first magnetic field of the coil is energized after the interaction with the third direction of the first sub-torque, such that the shaft rotates in the third direction and drives the connection portion rotates in the third direction; and when the coil has a first current direction, the first magnetic field having a second direction, the first magnetic field after the energization of the coil interactions in the third sub fifth torque direction, such that the axis of rotation and drives the connection portion is rotated along the fifth direction along the fifth direction, wherein the first magnetic field direction is opposite to the second direction, the second three directions opposite to the direction of the fifth.

[0011] 进一步地,该磁性组件还包括磁场产生电路,该磁场产生电路用以形成该第一磁场并控制该第一磁场的磁场方向。 [0011] Furthermore, the magnetic assembly further includes a magnetic field generation circuit, the magnetic field generation circuit for forming the first magnetic field and the control direction of the first magnetic field.

[0012] 进一步地,该线圈中的电流大小与该转轴的转动角度成正比。 [0012] Further, the magnitude of the current in the coil is proportional to the rotation angle of the shaft.

[0013] 进一步地,还包括控制单元,该控制单元与该磁性组件以及该线圈模组親接,该控制单元用以控制该第一磁场的磁场方向,以及控制该线圈中的电流方向以及电流大小。 [0013] Furthermore, further comprising a control unit, the control unit and the magnetic coil assembly and affinity module connected, the control unit for controlling the magnetic field direction of the first magnetic field, and controlling the current direction and the current in the coil size.

[0014] 本发明还提供一种显示装置,该显示装置包括如上所述的支撑装置,且该本体为显示器本体。 [0014] The present invention further provides a display apparatus, the display device comprising a support device as described above, and the body is a display body.

[0015] 与现有技术相比,本发明通过在铰链结构的转轴上缠绕通电线圈,且于上下方施加磁场,藉由通电线圈与磁场相互作用产生作用力(扭矩),使得转轴作旋转运动,从而带动与铰链结构的弹簧固定的连接部(显示器本体)转动,从而产生倾斜的角度。 [0015] Compared with the prior art, the present invention is wound around the rotating shaft by the hinge structure energization coil, and applying a magnetic field on the bottom, with the magnetic field coil is energized by interaction force (torque), so that the rotary shaft for rotation , so that the spring drives the hinge structure connecting the fixed portion (display body) is rotated, to produce an oblique angle. 如此,即不需要使用者用手来操作或手握显示器本体,避免了手指直接触碰显示器本体的问题。 As such, ie without the need to operate the user's hand or hand-panel display body, avoiding the problem of a finger from directly touching the display body.

[0016] 关于本发明的优点与精神可以藉由以下的发明详述及所附图式得到进一步的了解。 [0016] The advantage and spirit of the present invention may be further understood by the following detailed description and the accompanying drawings.

附图说明 BRIEF DESCRIPTION

[0017] 图1所示为根据本发明的显示装置的示意图; [0017] Figure 1 is a schematic view of a display device according to the present invention;

[0018] 图2所示为图1中显示装置的背面结构的局部示意图; [0018] FIG. 2 shows a partial schematic view of the rear structure of the display device of FIG. 1;

[0019] 图3所示为根据本发明的支撑装置的局部结构示意图; [0019] Figure 3 is a partial schematic view of the structure of the supporting device according to the invention;

[0020] 图4-图7所示为本发明的支撑装置于不同条件下的作动示意图。 [0020] The supporting device shown in Figures 4 to 7 of the present invention under different conditions to be movable FIG.

具体实施方式 Detailed ways

[0021] 请参见图1-图3,图1所示为根据本发明的显示装置的示意图;图2所示为图1中显示装置的背面结构的局部示意图;图3所示为根据本发明的支撑装置的局部结构示意图。 [0021] Referring to FIG. 1 to FIG. 3, FIG. 1 is a schematic view of a display device according to the present invention; FIG. 2 shows a partial schematic view of the rear structure of the display device of FIG. 1; FIG. 3 according to the present invention a partial structural diagram of the support device. 本发明提供一种显示装置,显示装置包括支撑装置以及显示器本体3,其中显示器本体3即屏幕,用以显示画面,支撑装置则用以支撑显示器本体3于平台例如桌面上。 The present invention provides a display apparatus, a display apparatus and a display apparatus comprising a support body 3, i.e. the body 3 in which the display screen to a display screen, the support means for supporting the display body 3, for example, on a desktop platform.

[0022]如图1和图2所示,支撑装置包括连接部21、支架22、线圈模组23以及磁性组件24, 除此之外,支撑装置还可包括有底座25。 [0022] As shown in FIGS. 1 and 2, the supporting device comprises a connecting portion 21, the bracket 22, the coil module 23 and the magnetic assembly 24, in addition, the support means 25 further comprises a base. 连接部21用以固定连接本体,本体例如显示器本体3,亦即连接部21固定于显示器本体3的背面。 Connecting portion 21 is fixedly connected to the body, the body 3 of the body such as a display, i.e., the connecting portion 21 is fixed to the back of the monitor body 3. 当然上述支撑装置亦可用以支撑其他元件,例如相框等,此时,本体即为相框本体。 Of course, the support means for supporting other elements may also be, for example, picture frames, etc. In this case, the body is the body frame. 支架22具有相对的第一端部221和第二端部222,其中支架22的第一端部221设置有铰链结构26,底座25则设置于支架22的另一端部222。 Bracket 22 having a first end 221 and a second opposite end portion 222, wherein the first end portion 221 of the bracket 22 is provided with a hinge 26, the base 25 is provided at the other end portion 222 of the bracket 22. 铰链结构26具有转轴27,铰链结构26藉由转轴27的转动带动连接部21的转动,其中铰链结构26例如采用弹簧28固定连接于连接部21,上述弹簧28缠绕于转轴27上。 The hinge structure 26 having a shaft 27, the hinge structure 26 by rotation of the drive shaft 27 of the pivotal connecting portion 21, wherein the hinge structure 26, for example, using a spring 28 fixedly connected to the connecting portion 21, the spring 28 is wound on the pivot shaft 27. 另外,因为显示器本体3 本身有一定的重量,所以连接部21以及显示器本体3整体相对铰链结构26具有第一扭矩。 Further, since the display body 3 itself has a certain weight, the connecting portion 21 and the entire 3 opposite the hinge structure of the display body 26 having a first torque. 线圈模组23包括线圈231以及连接于线圈231两端的线圈控制电路232,线圈控制电路232提供电流于线圈231,且线圈231固定设置于转轴27上。 Coil module 23 includes a coil 231 and a coil control circuit 231 is connected to both ends of the coil 232, a coil control circuit 232 supplies a current to the coil 231, and coil 231 is fixed to the shaft 27. 磁性组件24形成第一磁场,其中磁性组件24的两个磁极241、243分别位于转轴27的相对的第一侧与第二侧,且线圈231设置于两个磁极241、243之间。 The magnetic assembly 24 forming a first magnetic field, wherein the magnetic assembly 241, 243 of the two magnetic poles 24 are located opposite the first side and the second side of the rotary shaft 27, and the coil 231 disposed between the two poles 241, 243. 其中,线圈231通电后与第一磁场相互作用产生第二扭矩,且第二扭矩大于第一扭矩,使得转轴27转动以带动连接部21以及显示器本体3转动。 Wherein the interaction of the first magnetic field and a second torque coil 231 is energized, and the second torque is larger than the first torque, so that the shaft 27 is rotated to drive the connecting portion 21 and a display body 3 rotates. 上述也就是说,只要通电后的线圈231与第一磁场相互作用产生的第二扭矩大于显示器本体3与连接部21的整体相对铰链结构26产生的第一扭矩,转轴27即可带动连接部21以及显示器本体3发生转动,至于转动的方向以及转动的角度则与第一磁场的方向、线圈中电流方向、电流大小等有关。 That the above, as long as the first torque and the second torque coil 231 energized after the first magnetic field is greater than the interaction with the display body 3 integrally connected to the hinge portion 21 relative to structure 26 generated drive shaft 27 to the connecting portion 21 and a display body 3 from rotating, as the rotation angle and the rotation direction of the first magnetic field direction, the direction of current in the coil, the current magnitude and so on.

[0023] 另外,支撑装置还包括弹性元件29,其中一实施方式中,弹性元件的相对两端分别连接于连接部21与转轴27,弹性元件用以提供连接部21转动后的回复力。 [0023] Further, the supporting means further includes an elastic member 29, one embodiment, the opposite ends of the elastic elements are connected to the connecting portion 21 and the shaft 27, the elastic member for providing a restoring force after the connecting portion 21 is rotated. 又或者,如图3中所示,本实施方式中,弹性元件29的相对两端分别连接于连接部21与线圈231,弹性元件29 用以提供连接部21转动后的回复力。 Or, as shown in FIG. 3, according to the present embodiment, the opposite ends of the elastic member 29 are connected to the restoring force of the connecting portion 21 to provide pivotal connecting portion 21 and the coil 231, the resilient member 29.

[0024] 请参见图4-图7,图4-图7所示为本发明的支撑装置于不同条件下的作动示意图。 [0024] Referring to FIG 4-7, a schematic view of the movable support means shown in Figures 4 to 7 of the present invention will be under different conditions. 如图4所示,当线圈231具有第一电流方向Il (其中θ表示电流方向向内,®表示电流方向向外),第一磁场El具有第一磁场方向Dl时,第一磁场El与通电后的线圈231相互作用产生沿第三方向D3的第一子扭矩,使得转轴27沿该第三方向D3转动并带动连接部21沿第三方向D3 转动,上述第三方向D3例如为逆时针方向。 As shown, when the coil 231 has a first current Il direction (where θ represents the current direction inwardly, outwardly ® represents the current direction), a first magnetic field having a first magnetic field direction Dl El, the first magnetic field El energization 4 after interaction of the first sub-coil 231 generates the torque along the third direction D3, so that the shaft 27 is rotated in the direction D3 and the third drive connection portion 21 in the third direction D3 is rotated, the third direction D3, for example, counterclockwise . 具体的,根据第一磁场El的第一磁场方向Dl、通电后的线圈231中的第一电流方向II,上述第一磁场El与通电后的线圈231中的作用力Fl和F2的方向如图4中所示,作用力Fl和F2会共同产生第一子扭矩,使得转轴27沿第三方向D3即逆时针方向转动。 Specifically, according to a first magnetic field direction in FIG Dl El first magnetic field, the coil 231 is energized in the direction of the first current II, the biasing force Fl of the first coil 231 and the magnetic field energized in the direction of El and F2 in FIG. 4, the biasing force Fl and F2 will together produce a first sub-torque, such that the shaft 27 in the third direction D3 that is rotated counterclockwise.

[0025] 请参见图5,当线圈具有第二电流方向12,第一磁场El具有第一磁场方向Dl时,第一磁场El与通电后的线圈231相互作用产生沿第四方向D4的第二子扭矩,使得转轴27沿第四方向D4转动并带动连接部21沿第四方向D4转动,其中第一电流方向11与第二电流方向12 相反,第三方向D3与第四方向D4相反,上述第四方向D4例如为顺时针方向。 [0025] Referring to FIG 5, when the coil 12 having a second current direction, the first magnetic field having a first magnetic field El direction Dl, the first magnetic field coil energization El interaction 231 in the fourth direction D4 of the second sub-torque, such that the shaft 27 is rotated in direction D4 and fourth driven portion 21 along a fourth direction D4 is connected rotatably, wherein the first current and the second current direction 12 opposite direction 11, the third direction D3 and the fourth direction D4 opposite to the a fourth direction D4, for example, in the clockwise direction. 具体的,根据第一磁场El的第一磁场方向Dl、通电后的线圈231中的第二电流方向12,上述第一磁场E1与通电后的线圈231中的作用力Fl和F2的方向如图5中所示,作用力Fl和F2会共同产生第二子扭矩,使得转轴27沿第四方向D4转动。 Specifically, according to a first magnetic field direction Dl El first magnetic field, the direction of the second current direction of the coil 231 in the power 12, the biasing force Fl of the first coil 231 and the magnetic power of the E1 and F2 of FIG. 5, a force Fl and F2 will together produce a second sub-torque, such that rotation of the shaft 27 D4 in the fourth direction.

[0026] 其中,线圈模组例如还包括电流换向器,用以改变线圈231的电流方向。 [0026] wherein, for example, the coil module further comprises a current commutator, for changing the current direction of the coil 231. 亦即,本发明可通过改变线圈中电流的方向来使得转轴27沿顺时针或逆时针方向转动,从而带动显示器本体3沿顺时针或逆时针方向转动。 That is, the present invention may be such that the rotation shaft by changing the direction of current in the coil 27 in a clockwise or counter-clockwise direction, so as to drive the display body 3 is rotated clockwise or counterclockwise direction.

[0027] 如图6所示,当线圈231具有第一电流方向II,第一磁场El具有第二磁场方向D2时, 第一磁场El与通电后的线圈231相互作用产生沿第五方向的第三子扭矩,使得转轴27沿第五方向D5转动并带动连接部沿第五方向D5转动,上述第五方向D5例如为顺时针方向。 [0027] As shown, when the first coil 231 has a first current direction II, the first magnetic field having a second magnetic field El direction D2, the first magnetic field coil energization El interaction along fifth direction 231 6 three sub-torque, such that the shaft 27 is rotated in the fifth direction D5 and drives the connection portion rotates in the fifth direction D5, D5 to the fifth example, clockwise direction. 具体的,根据第一磁场El的第二磁场方向D2、通电后的线圈231中的第一电流方向II,上述第一磁场El与通电后的线圈231中的作用力Fl和F2的方向如图6中所示,作用力Fl和F2会共同产生第三子扭矩,使得转轴27沿第五方向D5转动。 Specifically, the coil 231 is energized in the direction of the first current II, the biasing force Fl of the first coil 231 after the energization of the magnetic field El and directions from a second direction of the first magnetic field El D2 F2 of FIG. 6, the biasing force Fl and F2 will together produce third sub-torque, such that the rotation shaft 27 D5 in the fifth direction.

[0028] 如图7所示,当该线圈具有第二电流方向12,该第一磁场El具有第二磁场方向D2 时,该第一磁场El与通电后的线圈231相互作用产生沿第六方向D6的第四子扭矩,使得转轴27沿第六方向D6转动并带动连接部21沿第六方向D6转动,其中第一磁场方向Dl与该第二磁场方向D2相反,第五方向D5与该第六方向D6相反,上述第六方向D6例如为逆时针方向。 [0028] As shown in FIG. 7, when the coil 12 having a second current direction, the second magnetic field having a first magnetic field El direction D2, the first magnetic field of the coil energization El interaction in the sixth direction 231 D6 fourth sub-torque, such that the shaft 27 in the sixth direction D6 to rotate and drives the connection portion 21 is rotated in the sixth direction D6, wherein the first magnetic field direction Dl D2 opposite to the second magnetic field direction, the direction D5 of the fifth six directions opposite to D6, for example, the sixth counterclockwise direction D6. 具体的,根据第一磁场E1的第二磁场方向D2、通电后的线圈231中的第二电流方向12,上述第一磁场El与通电后的线圈231的作用力Fl和F2的方向如图7所示,作用力Fl和F2共同产生第四子扭矩,使得转轴27沿第六方向D6转动。 Specifically, according to a second direction of the first magnetic field E1, D2, 12, the coil 231 after the first magnetic force Fl El energization current direction and the direction of the second coil 231 after power F2 in FIG. 7 shown, the biasing force Fl and F2 together produce fourth sub-torque, such that the rotation shaft 27 D6 in the sixth direction.

[0029] 其中,磁性组件还包括磁场产生电路242、244,磁场产生电路242、244用以形成第一磁场El并控制第一磁场El的磁场方向。 [0029] wherein, the magnetic assembly further includes a magnetic field generating circuit 242, the magnetic field generating circuit 242 for forming a first magnetic field to control the direction of El and El of the first magnetic field. 亦即,本发明可通过控制第一磁场El的磁场方向来使得转轴27沿顺时针或逆时针方向转动,从而带动显示器本体3沿顺时针或逆时针方向转动。 That is, the present invention may be such that the field direction of the shaft by controlling the first magnetic field El 27 rotates clockwise or counterclockwise direction, so as to drive the display body 3 is rotated clockwise or counterclockwise direction.

[0030] 另外,本发明还可通过改变线圈中的电流大小,从而控制转轴的转动角度,进而改变显示器本体的俯仰角度。 [0030] Further, the present invention but also by changing the magnitude of the current in the coil to thereby control the rotation angle of the shaft, thereby changing the pitch angle of the monitor body. 亦即该线圈中的电流大小与该转轴的转动角度成正比。 I.e., the magnitude of the current in the coil is proportional to the rotation angle of the shaft.

[0031] 本发明的支撑装置还包括控制单元,控制单元与磁性组件24以及线圈模组耦接, 用以控制磁性组件24中第一磁场E1的磁场方向,以及控制线圈模组23中线圈231中的电流方向以及电流大小。 [0031] The supporting device according to the present invention further comprises a control unit, the control unit 24 and a coil assembly and the magnetic module is coupled to the control assembly 24 of the magnetic field direction of the first magnetic field E1, the coil module 23 and a control coil 231 the current direction and current magnitude. 对应的,可于显示器本体3或支撑装置上设置按钮来对应控制第一磁场El的磁场方向、线圈231中的电流大小以及电流方向,如此,使用者只需要按压按钮即可实现显示器本体的俯仰角的调整。 Corresponding to the pitch, the display may be on the body 3 or the supporting means is provided corresponding to the control button to the direction of the first magnetic field El, the magnitude of the current in the coil 231 and a current direction, so the user only needs to press the button to achieve display body adjust the angle.

[0032] 综上所述,本发明通过在铰链结构的转轴上缠绕通电线圈,且于上下方施加磁场, 藉由通电线圈与磁场相互作用产生作用力(扭矩),使得转轴作旋转运动,从而带动与铰链结构的弹簧固定的连接部(显示器本体)转动,从而产生倾斜的角度。 [0032] In summary, the present invention is wound around the rotating shaft by the hinge structure energization coil, and applying a magnetic field on the bottom, with the magnetic field coil is energized by interaction force (torque), so that the shaft for rotational movement, whereby connecting spring fixing portion (display body) driven by the rotation of the hinge structure, thereby generating an oblique angle. 如此,即不需要使用者用手来操作或手握显示器本体,避免了手指直接触碰显示器本体的问题。 As such, ie without the need to operate the user's hand or hand-panel display body, avoiding the problem of a finger from directly touching the display body.

[0033] 藉由以上较佳具体实施例的详述,是希望能更加清楚描述本发明的特征与精神, 而并非以上述所揭露的较佳具体实施例来对本发明的保护范围加以限制。 [0033] With the above detailed description of the preferred embodiment DETAILED embodiments, it is to be able to more clearly describe the spirit of the present invention wherein, rather than the above disclosed preferred embodiments be used to limit the scope of the present invention.

Claims (10)

1. 一种支撑装置,该支撑装置包括: 连接部,该连接部用以固定连接本体; 支架,该支架的第一端部设置有铰链结构,该铰链结构具有转轴,该铰链结构藉由该转轴的转动带动该连接部转动,其中该连接部以及该本体整体相对该铰链结构具有第一扭矩; 其特征在于,该支撑装置还包括: 线圈模组,包括线圈以及连接于该线圈两端的线圈控制电路,该线圈控制电路提供电流于该线圈,且该线圈固定设置于该转轴上; 磁性组件,形成第一磁场,其中该磁性组件的两个磁极分别位于该转轴的相对的第一侧与第二侧,且该线圈设置于该两个磁极之间; 其中,该线圈通电后与该第一磁场相互作用产生第二扭矩,且该第二扭矩大于该第一扭矩,使得该转轴转动以带动该连接部转动。 1. A support apparatus, the support apparatus comprising: a connecting portion, the connecting portion is fixedly connected to the body; bracket, a first end portion of the bracket is provided with a hinge structure, the hinge structure having a rotating shaft, by which the hinge structure a rotation shaft rotatably driven by the connecting portion, the hinge structure wherein the connecting portion and a body having a first integral opposing torque; wherein the supporting means further comprises: a coil module, comprising a coil, and a coil connected to the both ends of the coil a control circuit, the coil control circuit provides a current to the coil, and the coil is disposed on the fixed shaft; magnetic component forming a first magnetic field, wherein two poles of the magnetic assembly are located opposite the first side of the shaft a second side, and the coil is disposed between the two poles; wherein, after the coil is energized to generate a first magnetic field interacts with the second torque and the second torque is larger than the first torque, so that the axis of rotation in order to drives the connection portion is rotated.
2. 如权利要求1所述的支撑装置,其特征在于该支撑装置还包括弹性元件,该弹性元件的相对两端分别连接于该连接部与该转轴,该弹性元件用以提供该连接部转动后的回复力。 2. The support device according to claim 1, wherein the supporting means further comprising an elastic member, opposite ends of the resilient elements are connected to the connecting portion and the shaft, the resilient member for providing rotation of the connecting portion after restoring force.
3. 如权利要求1所述的支撑装置,其特征在于该支撑装置还包括弹性元件,该弹性元件的相对两端分别连接于该连接部与该线圈,该弹性元件用以提供该连接部转动后的回复力。 3. The support device according to claim 1, wherein the supporting means further comprising an elastic member, opposite ends of the resilient elements are connected to the connecting portion of the coil, the resilient member for providing rotation of the connecting portion after restoring force.
4. 如权利要求1所述的支撑装置,其特征在于,当该线圈具有第一电流方向,该第一磁场具有第一磁场方向时,该第一磁场与通电后的该线圈相互作用产生沿第三方向的第一子扭矩,使得该转轴沿该第三方向转动并带动该连接部沿该第三方向转动;当该线圈具有第二电流方向,该第一磁场具有第一磁场方向时,该第一磁场与通电后的该线圈相互作用产生沿第四方向的第二子扭矩,使得该转轴沿该第四方向转动并带动该连接部沿该第四方向转动,其中该第一电流方向与该第二电流方向相反,该第三方向与该第四方向相反。 4. The support device according to claim 1, wherein, when the coil has a first current direction, the first magnetic field having a first direction, the first magnetic field of the coil energization in the interaction the first sub third torque direction, such that the axis of rotation and drives the connection portion rotates in the third direction, the third direction; and when the coil has a second current direction, the first magnetic field having a first direction, after the coil is energized with the first magnetic interaction fourth direction of the second sub-torque, such that the axis of rotation and drives the connection portion rotates in the fourth direction along the fourth direction, wherein the first current direction, Instead, the third direction and the fourth direction is opposite to the second current direction.
5. 如权利要求4所述的支撑装置,其特征在于,还包括电流换向器,用以改变该线圈的电流方向。 5. The supporting device according to claim 4, characterized in that, further comprising a current commutator, for changing the current direction of the coil.
6. 如权利要求1所述的支撑装置,其特征在于,当该线圈具有第一电流方向,该第一磁场具有第一磁场方向时,该第一磁场与通电后的该线圈相互作用产生沿第三方向的第一子扭矩,使得该转轴沿该第三方向转动并带动该连接部沿该第三方向转动;当该线圈具有第一电流方向,该第一磁场具有第二磁场方向时,该第一磁场与通电后的该线圈相互作用产生沿第五方向的第三子扭矩,使得该转轴沿该第五方向转动并带动该连接部沿该第五方向转动,其中该第一磁场方向与该第二磁场方向相反,该第三方向与该第五方向相反。 6. The support device according to claim 1, wherein, when the coil has a first current direction, the first magnetic field having a first direction, the first magnetic field of the coil energization in the interaction the first sub third torque direction, such that the axis of rotation and drives the connection portion rotates in the third direction, the third direction; and when the coil has a first current direction, the first magnetic field having a second direction, after the coil is energized with the first magnetic interaction in the third sub torque fifth direction, such that the axis of rotation and drives the connection portion is rotated along the fifth direction along the fifth direction, wherein the first magnetic field direction Instead, the third and the fifth direction opposite to the direction of the second magnetic field direction.
7. 如权利要求6所述的支撑装置,其特征在于,该磁性组件还包括磁场产生电路,该磁场产生电路用以形成该第一磁场并控制该第一磁场的磁场方向。 7. The support device according to claim 6, characterized in that the assembly further comprises a magnetic field generation circuit, the magnetic field generation circuit for forming the first magnetic field and the control direction of the first magnetic field.
8. 如权利要求1所述的支撑装置,其特征在于,该线圈中的电流大小与该转轴的转动角度成正比。 The supporting device as claimed in claim 1, wherein the magnitude of the current in the coil is proportional to the rotation angle of the shaft.
9. 如权利要求1所述的支撑装置,其特征在于还包括控制单元,该控制单元与该磁性组件以及该线圈模组耦接,该控制单元用以控制该第一磁场的磁场方向,以及控制该线圈中的电流方向以及电流大小。 9. The supporting device according to claim 1, characterized by further comprising a control unit, the control unit and the magnetic element and the coil module coupled to the control unit for controlling the magnetic field direction of the first magnetic field, and controlling the current direction and magnitude of the current in the coil.
10.—种显示装置,其特征在于该显示装置包括如权利要求1-9中任意一项所述的支撑装置,且该本体为显示器本体。 10.- kinds of display device, wherein the display device includes a supporting means claimed in any one of the claim, and the body is a display body.
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CN1723361A (en) * 2002-12-05 2006-01-18 皇家飞利浦电子股份有限公司 Display system with stationary support base
CN1693957A (en) * 2004-05-06 2005-11-09 Lg电子株式会社 Stand assembly for monitor
CN201075304Y (en) * 2007-08-21 2008-06-18 兆利科技工业股份有限公司 Lifting/lowering device with elevation angle adjustment
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