Display and computer

Abstract

The application provides a display and a computer, the display comprises a mainboard, a display body and a support for supporting the display body; the display body comprises a shell and a display module mounted on the shell, the support is arranged on a side of the shell away from the display module, the mainboard is arranged in the support, and a cable of the display module extends out of the shell and into the support to be connected to the mainboard. The application provides a display and a computer, and the ultra-thin design of the display body can be realized.

Description

[0001] This application claims priority to Chinese Patent Application No. 202011554206.0, filed on December 24, 2020, entitled "Display and Computer", the entire contents of which are incorporated herein by reference. Technical Field

[0002] This application relates to the field of computer technology, and more particularly to a monitor and a computer. Background Technology

[0003] With the rapid development of technology, monitors have become an essential tool for people's daily work and entertainment. As people's requirements for the appearance of monitors increase, monitors are gradually developing towards ultra-thin designs.

[0004] In related technologies, a display includes a display body and a stand. The stand is only used as a structural component to support the display body and adjust the support height and tilt angle of the display body. The display body includes a display module and a motherboard, interfaces, and other components located on the back of the display module.

[0005] At this point, the thickness of the monitor body is constrained by components such as the motherboard and interfaces, resulting in a larger thickness and a poorer overall appearance. Summary of the Invention

[0006] This application provides a monitor and a computer that enable an ultra-thin design for the monitor body.

[0007] One embodiment of this application provides a display, including: a motherboard, a display body, and a bracket for supporting the display body; the display body includes a housing and a display module mounted on the housing, the bracket is disposed on the side of the housing opposite to the display module, the motherboard is disposed within the bracket, and the cable of the display module extends out of the housing and into the bracket to connect to the motherboard.

[0008] This application provides a display in which the motherboard is placed inside the bracket. Compared with the related technology where the motherboard is placed inside the display body, this method is beneficial in several ways: firstly, it makes the display body thinner and lighter; secondly, it makes better use of the space inside the bracket; and thirdly, it increases the area of ​​the motherboard, enhances its performance, and improves its heat dissipation efficiency.

[0009] In one possible implementation, the display further includes a lifting assembly and a cable management assembly. The lifting assembly is located above the motherboard and includes a slider and a slide rail. The slider is fixedly connected to the display body, and the slide rail is fixedly connected to the bracket. One end of the cable extending into the bracket is fixedly connected to the slider, and the other end passes through the cable management assembly and is fixed to the motherboard. The slider and the cable management assembly are slidably connected to the slide rail, and the sliding speed of the cable management assembly relative to the slide rail is less than the sliding speed of the slider relative to the slide rail.

[0010] The lifting assembly is used to realize the sliding lifting function of the monitor body, and the cable management assembly is used to ensure that the cable can rise and fall with the monitor body during the lifting process. By setting the sliding speed of the cable management assembly relative to the slide rail to be less than the sliding speed of the slider relative to the slide rail, differential cable management between the cable management assembly and the monitor body can be realized.

[0011] In one possible implementation, the slide rail includes an outer slide rail, an inner slide rail, and a steel ball. The slider is disposed within the inner slide rail, the inner slide rail is disposed within the outer slide rail, the cable management assembly is fixed on the inner slide rail, and the steel ball is embedded in the inner slide rail and simultaneously rolls in connection with the slider and the outer slide rail, such that the sliding speed of the inner slide rail relative to the outer slide rail is half the sliding speed of the slider relative to the slide rail.

[0012] Under the rolling action of the steel balls, the slider and the inner slide rail generate relative motion, and the inner slide rail and the outer slide rail generate relative motion. After two relative motion conversions, the speed of the slider relative to the outer slide rail is twice that of the inner slide rail relative to the outer slide rail, which can cleverly realize differential cable management between the cable management component and the main body of the display.

[0013] In one possible implementation, the lifting assembly further includes a first fixing plate and a cable fixing seat. The first fixing plate is disposed between the display body and the cable management assembly. The first fixing plate is fixedly connected to the slider and the display body. The cable fixing seat is installed on the side of the first fixing plate facing the cable management assembly, and the cable is snapped and fixed on the cable fixing seat.

[0014] Setting up the first fixing plate facilitates the fixed connection between the slider and the main body of the display, while setting up the cable fixing seat can reliably fix the cable and prevent it from being pulled and damaged during the lifting and lowering process.

[0015] In one possible implementation, the lifting assembly further includes a constant force spring, which is fixed to the bracket by a constant force spring seat, and the end of the constant force spring is fixed to the slider.

[0016] A constant force spring is used to provide a constant elastic force, ensuring that the slider is subjected to uniform force during the sliding process, thereby improving the stability of the display body's lifting and lowering.

[0017] In one possible implementation, the cable management assembly includes a cable management base and a cable management roller. The cable management base is fixedly connected to the inner slide rail, and the cable management roller is fixed to the cable management base with its axial direction perpendicular to the extension direction of the slide rail. The cable is wound around the periphery of the cable management roller.

[0018] The rolling action of the cable management rollers can assist the movement of the cable, reduce the pulling and friction of the cable, and make the cable move more smoothly relative to the cable management base.

[0019] In one possible implementation, the number of the cable management rollers is multiple, and the multiple cable management rollers are arranged in an arc or semi-circular shape on the surface of the cable management seat.

[0020] Multiple cable management rollers are arranged in an arc or semi-circle to restrain the routing of the first cable and ensure that the moving part of the cable meets the minimum radius requirement of the first cable.

[0021] In one possible implementation, the cable management assembly further includes a second fixing plate, which is fixedly connected to the inner slide rail. The cable management seat is fixed to the second fixing plate, and the cable management roller is provided on the side of the cable management seat facing the second fixing plate.

[0022] The second fixing plate facilitates the fixed connection between the cable management base and the inner slide rail, and can prevent the cables wound around the cable management rollers from coming off.

[0023] In one possible implementation, the cable management assembly further includes a cable management baffle, which is fixed to the cable management base and located on the side of the cable management base opposite to the second fixing plate. The cable management roller is provided on the side of the cable management base facing the cable management baffle.

[0024] Cable management rollers can be installed on both sides of the cable management base, and cable management baffles are used to prevent cables that are wound between the cable management base and the cable management baffles from coming loose.

[0025] In one possible implementation, the cable includes a first cable and a second cable, which are respectively wound around the cable management rollers located on both sides of the cable management base.

[0026] The display module can be configured with two cables as needed. Cable management rollers are provided on both sides of the cable management base to ensure that the two cables do not interfere with each other and can be connected to the motherboard and raised and lowered in an orderly manner.

[0027] In one possible implementation, the display further includes a hinge assembly, the display body is connected to the slider via the hinge assembly, the axis of the hinge assembly is parallel to the plane of the display body and perpendicular to the extension direction of the slide rail, the display body is rotatable relative to the slider, and the cable passes through the hinge assembly and extends into the bracket.

[0028] The hinge assembly is connected to the stand and can slide up and down relative to the stand to adjust the support height of the monitor body, so that the monitor body is at a suitable viewing height for the user.

[0029] In one possible implementation, the pivot assembly includes a pivot body, the pivot body including a swing arm, a pivot shaft and a fixing member, the swing arm being fixedly connected to the display body, the fixing member being fixedly connected to the slider, and the swing arm being rotatably connected via the pivot shaft and the fixing member.

[0030] The rotating shaft body is fixedly connected to the display body and the slider. The rotation between the swing arm and the fixed part realizes the rotation between the display body and the slider, thereby realizing the adjustment of the tilt angle of the display body.

[0031] In one possible implementation, the hinge assembly further includes a hinge mounting plate and a hinge housing. The hinge housing includes a shielding cover and a shielding shield. A first opening is provided on the housing. The hinge mounting plate is fixedly connected to the back plate of the display module. The shielding cover is fixedly connected to the hinge mounting plate and covers the first opening. The shielding shield covers the hinge body and is fixedly connected to the shielding cover. The cable of the display module extends from the first opening and passes through the shielding cover and the shielding shield.

[0032] The aesthetic appearance of a monitor can be improved by using a hinge housing to conceal the hinge body and cables.

[0033] In one possible implementation, the bracket includes a front shell, a rear shell, and a frame body located between the front shell and the rear shell. The slide rail is fixed to the frame body. The front shell is provided with a second opening. The extension direction of the second opening is consistent with the extension direction of the slide rail. The cable extends into the bracket through the second opening.

[0034] The bracket's structure facilitates installation and disassembly, and can meet the needs of cable lifting.

[0035] In one possible implementation, a speaker is also provided inside the bracket, the speaker is connected to the motherboard, the speaker is located below the motherboard, and the speaker's sound outlet faces the front of the bracket facing the display body.

[0036] Installing speakers inside the stand, compared to placing them inside the host unit, results in better sound quality because the speakers are closer to the monitor body. It also makes it easier to connect headphones and microphones and increases the versatility of the monitor's functions.

[0037] In one possible implementation, an I / O board is provided inside the bracket, and an I / O interface connected to the I / O board is provided on the bracket. The I / O interface is located on the back of the bracket away from the main body of the display and / or on the side of the bracket, and the I / O interface is located near the bottom of the bracket.

[0038] Setting up I / O interfaces on the stand, compared to the approach of placing the interfaces on the main body of the monitor in related technologies, is beneficial for the design of a thinner and lighter monitor body, the design of a more versatile stand, and the visual simplicity and aesthetics of external cables connected to the interfaces.

[0039] In one possible implementation, the display further includes a base supported at the bottom of the bracket, the base containing a near-field communication (NFC) chip and / or a wireless charging coil.

[0040] The base is equipped with a near-field communication (NFC) antenna and a wireless charging coil, which can make full use of the base space to add practical functions such as near-field communication and wireless charging to the display.

[0041] Another embodiment of this application provides a computer, including a host and a display as described above.

[0042] This application provides a monitor and a computer. By placing the motherboard inside a bracket, the thickness of the monitor body is no longer limited by the motherboard, enabling an ultra-thin monitor design. The cables of the display module inside the monitor body are connected to the motherboard inside the bracket. By setting up cable management components and lifting components, reliable cable connections can be achieved, and orderly cable movement can be ensured during the lifting and lowering of the monitor body. Attached Figure Description

[0043] Figure 1 This is a schematic diagram of the overall structure of a display provided in an embodiment of this application;

[0044] Figure 2 An exploded view of the display of an electronic device provided in an embodiment of this application;

[0045] Figure 3 This is a schematic diagram of the structure of a display body provided in an embodiment of this application;

[0046] Figure 4 This is an exploded structural diagram of the rotating shaft assembly and bracket provided in an embodiment of this application;

[0047] Figure 5 This is a schematic diagram of the overall structure of a rotating shaft assembly provided in an embodiment of this application;

[0048] Figure 6 This is an exploded view of a rotating shaft assembly provided in an embodiment of this application;

[0049] Figure 7 This is an exploded structural diagram of the rotating shaft body provided in an embodiment of this application;

[0050] Figure 8 A schematic diagram of the frame body, lifting component, and cable management component provided in an embodiment of this application;

[0051] Figure 9 An exploded view of the frame body, lifting assembly, and cable management assembly provided in an embodiment of this application;

[0052] Figure 10 A three-dimensional structural diagram of a slider and slide rail provided in an embodiment of this application;

[0053] Figure 11 This is a schematic diagram of the planar structure of the slider and slide rail provided in one embodiment of this application;

[0054] Figure 12 This is a schematic diagram of the assembled structure of the rotating shaft body, the first fixing plate, and the cable fixing seat according to an embodiment of this application.

[0055] Figure 13 An exploded view of the rotating shaft body, the first fixing plate, and the cable fixing seat provided in an embodiment of this application;

[0056] Figure 14 An exploded view of a cable management assembly provided in an embodiment of this application;

[0057] Figure 15 This is a schematic diagram of the cable management seat from another angle, provided in one embodiment of this application.

[0058] Figure 16 A schematic diagram illustrating the sliding state changes of the cable management assembly and the first fixing plate on the slide rail according to an embodiment of this application;

[0059] Figure 17 This is a schematic diagram of another cable management component provided in an embodiment of this application;

[0060] Figure 18 This is an exploded structural diagram of a base provided in an embodiment of this application.

[0061] Explanation of reference numerals in the attached figures:

[0062] 100-Display body; 11-Housing shell; 111-Bezel; 112-Back cover; 1121-First opening; 12-Display module; 13-Cable; 131-First cable; 132-Second cable; 200-Bracket; 21-Front shell; 211-Second opening; 22-Rear shell; 221-Rear shell body; 2211-Fourth opening; 222-Rear shell side wall; 2221-Fifth opening; 23-Frame body; 231-Frame plate; 2311-Third opening; 232-Frame side wall; 300-Hinge assembly; 31-Hinge mounting plate; 32-Hinge housing; 321-Shielding cover; 322-Shielding shield; 3221-Sixth opening; 33-Hinge body; 331-Swing arm; 3311-First hinge hole; 3312-Limiting groove; 332-Hinge; 333-Fixed component; 3331-Second pivot hole; 3332-Fixing boss; 334-Torsion spring; 400-Base; 41-Top cover; 42-Lower shell; 43-Component; 500-Lifting assembly; 51-Slider; 52-Slide rail; 52a-Left slide rail; 52b-Right slide rail; 521-Outer slide rail; 522-Inner slide rail; 523-Steel ball; 53-First fixing plate; 531-Fixing part; 533-Wire hole; 54-Slide rail connector; 55-Cable fixing seat; 57-Slide rail fixing plate; 600-Cable management assembly; 61-Second fixing plate; 62-Cable management seat; 63-Cable management roller; 64-Cable management baffle; 700-Main board; 701-Board to board connector; 71-Wireless board; 800-Speaker; 900-IO board; 91, 92-Interface. Detailed Implementation

[0063] This application provides a monitor and a computer. The computer can be a desktop computer, including a host, monitor, keyboard, mouse and other devices. The host can be equipped with components such as power supply, hard disk, disk, memory, motherboard, central processing unit, optical drive, sound card, network card, graphics card, heat sink and other components. The monitor mainly serves to display text, images and other information, and can also be used as a touch input device.

[0064] In related technologies, a monitor includes a monitor body and a stand. The stand serves only as a structural component, supporting the monitor body and adjusting its height and tilt angle. The monitor body includes a display module and components such as a motherboard and interfaces located on the back of the display module. In this case, the thickness of the monitor body is constrained by the motherboard, interfaces, and other components, resulting in a relatively large thickness and a poor overall appearance of the monitor.

[0065] Based on the above description, this application provides a monitor and a computer. The monitor includes a monitor body and a stand. The motherboard is set inside the stand, and only the display module is set inside the monitor body, thereby achieving an ultra-thin design for the monitor body. At the same time, by setting a hinge assembly, the tilt angle of the monitor body can be adjusted. By setting a lifting assembly, the height of the monitor body can be adjusted. By setting a cable management assembly, the cables of the display module can be connected to the motherboard inside the stand, and the cables can be raised and lowered in an orderly manner during the raising and lowering of the monitor body.

[0066] The display provided in this application is described below with reference to the accompanying drawings and specific embodiments.

[0067] It should be noted that in the figures of the embodiments of this application, the X-axis can be defined as the thickness direction of the display body, that is, the front-to-back direction when the user uses the display; the Y-axis can be defined as the length direction of the display body, that is, the left-to-right direction when the user uses the display; and the Z-axis can be defined as the width direction of the display body, that is, the height direction of the display, that is, the up-to-down direction when the user uses the display.

[0068] Figure 1 This is a schematic diagram of the overall structure of a display provided in one embodiment of this application. Figure 2 This is an exploded view of the display of an electronic device according to an embodiment of this application. (Reference) Figure 1 and Figure 2 As shown in the figure, this application embodiment provides a display, which may include a display body 100 and a stand 200. The display surface of the display body 100 faces the user. The stand 200 is disposed on the back of the display body 100 away from the display surface. The display body 100 is used to display text, images and other information. The stand 200 has a column-like structure and is used to support the display body 100, so that the display body 100 is supported at a certain height on a desktop or other work surface, so as to facilitate the user to view the display body 100.

[0069] The monitor may also include a hinge assembly 300, which is connected between the monitor body 100 and the stand 200. The hinge assembly 300 is used to adjust the angle of the monitor body 100 relative to the stand 200, so that the monitor body 100 has a tilt angle suitable for the user's viewing. The hinge assembly 300 is connected to the top of the stand 200 and can slide up and down relative to the stand 200 to adjust the support height of the monitor body 100, so that the monitor body 100 has a height suitable for the user's viewing.

[0070] The monitor may also include a base 400, which is connected to the end of the stand 200 away from the monitor body 100. The base 400 may be a rectangular plate structure for placing on a desktop or other work surface. The stand 200 is erected on the base 400. The base 400 and the stand 200 together provide stable support for the monitor body 100.

[0071] Figure 3 This is a schematic diagram of the structure of a display body provided in one embodiment of this application. (Reference) Figure 3 As shown, the display body 100 may include a housing 11 and a display module 12. The display module 12 is mounted on the housing 11, and the housing 11 is used to protect the display module 12. The housing 11 may include a frame 111 and a back cover 112. The frame 111 surrounds the display module 12, and the back cover 112 covers the frame 111 and is located on the side away from the display module 12. The aforementioned hinge assembly 300 and bracket 200 are disposed on the side of the back cover 112 away from the display module 12.

[0072] The display module 12 refers to an assembly that combines liquid crystal display devices, connectors, control and driving peripheral circuits, circuit boards, backlights, structural components, etc. The display module 12 includes a stacked display panel, touch panel, polarizer, backplate, and other structures. The display panel can be a liquid crystal display (LCD) or an organic light emitting diode (OLED). The backplate is the main structural component of the display module 12 and can be a metal plate such as stainless steel, providing high structural strength.

[0073] The display module 12 is equipped with a cable 13, which can be a coaxial cable, an FFC (Flexible Flat Cable), or other types of cable. Internally, it may include EDP signal lines and wiring for connecting to the touch panel. The cable 13 extends from the display module 12 and needs to connect to the monitor's motherboard for power supply and data transmission. The number of cables 13 is not specifically limited; for ease of connection and cable management, one or two cables 13 may be used.

[0074] The back plate and back cover 112 of the display module 12 can be fixedly connected by magnetic attraction or other means. The back plate and frame 111 of the display module 12 can be fixedly connected by magnetic attraction, screws or other means. A first opening 1121 is provided in the middle of the back cover 112. The first opening 1121 can facilitate the fixed connection between the hinge assembly 300 and the back plate of the display module 12, and can also allow the cable 13 to extend through the hinge assembly 300 to connect to the motherboard in the bracket 200.

[0075] Figure 4 This is an exploded structural diagram of a rotating shaft assembly and a bracket provided in one embodiment of this application. (Reference) Figure 4 As shown, the bracket 200 includes a front shell 21, a rear shell 22, and a frame body 23 located between the front shell 21 and the rear shell 22. The front shell 21 faces the display body 100, and the rear shell 22 faces away from the display body 100. The front shell 21, the rear shell 22, and the frame body 23 enclose a receiving space for the bracket 200. This receiving space houses devices such as a lifting assembly 500, a cable management assembly 600, a main board 700, a speaker 800, and an I / O board 900.

[0076] The lifting assembly 500 and the hinge assembly 300 are connected to enable the sliding lifting function of the monitor body 100. The cable 13, passing through the hinge assembly 300 and entering the bracket 200, is connected to the cable management assembly 600, which ensures the orderly lifting and lowering of the cable 13 during the lifting and lowering process of the monitor body 100. The lifting assembly 500 and the hinge assembly 300 are located at the upper part of the bracket 200, while the main board 700 is located below them. After passing through the cable management assembly 600, the cable 13 can be fastened to the main board 700 via a board-to-board connector 701 to achieve a reliable connection, thus connecting the display module 12 to the main board 700.

[0077] The motherboard 700 can house devices such as a processor, memory, power supply, and heat dissipation components. Because it requires considerable space, in this embodiment, the motherboard 700 is housed within the bracket 200. This design facilitates a thinner and lighter display body 100, optimizes the use of internal space within the bracket 200, increases the area of ​​the motherboard 700, enhances its performance, and improves its heat dissipation efficiency. A wireless board 71 is also housed within the bracket 200. The wireless board 71 contains radio frequency chips, antennas, and other components to enhance the display's functionality. The motherboard 700 and the wireless board 71 can be stacked together to improve layout compactness.

[0078] The speaker 800 can be positioned below the motherboard 700, with the speaker 800 emitting sound towards the front cover 21. Multiple sound holes (not shown in the figure) can be provided on the front cover 21. The speaker 800 can be positioned close to the base 400 so that the sound holes are not blocked during the raising and lowering of the monitor body 100, and the sound output effect of the speaker 800 is not affected.

[0079] In related technologies, for desktop computers, there is insufficient space inside the monitor to house speakers. Speakers are typically located inside the computer case. This is understandable, as the distance between the computer case and the monitor is considerable, and the computer case is usually placed under a desk or similar space, resulting in poor speaker performance and inconvenience when connecting headphones or microphones. However, in this embodiment, a speaker 800 is installed inside the stand 200. The speaker 800 is closer to the monitor case 100, resulting in better sound quality and easier connection of headphones and microphones.

[0080] The front cover 21 is provided with a second opening 211. The frame body 23 may include a frame plate 231 and a frame side wall 232. The frame plate 231 is provided with a third opening 2311. The second opening 211 and the third opening 2311 are provided correspondingly and are both strip holes. The extension direction of the strip holes is from top to bottom, so as to facilitate the connection of the rotating shaft assembly 300 and the lifting assembly 500 and their up and down movement within the strip holes.

[0081] The bracket 200 also houses an I / O board 900, which is used to set various input / output I / O interfaces, such as VGA, DVI, and HDMI interfaces. External connection cables are connected to the monitor through these interfaces, enabling the monitor to connect to the host and power supply. Interface 91 faces the rear shell 22, and interface 92 is located on the frame side wall 232 of the frame body 23. Correspondingly, the rear shell 22 includes a rear shell body 221 and a rear shell side wall 222. The rear shell body 221 has a fourth opening 2211 corresponding to interface 91, and the rear shell side wall 222 has a fifth opening 2221 corresponding to interface 92.

[0082] In related technologies, the monitor's interfaces are located on the monitor body. This is not conducive to the slim and lightweight design of the monitor body, and the multiple external connection cables connected to the interfaces are difficult to avoid being exposed in the user's line of sight, affecting the visual simplicity and aesthetics. In this embodiment, both the motherboard 700 and the I / O board 900 are housed within the bracket 200, and the interfaces are located at the lower part of the bracket 200 and near the back. This facilitates the organization of the monitor's multiple connection cables and improves the simplicity of the desktop.

[0083] Figure 5 This is a schematic diagram of the overall structure of a rotating shaft assembly provided in one embodiment of this application. Figure 6 This is an exploded view of a rotating shaft assembly provided in one embodiment of this application. Figure 7 This is an exploded structural diagram of a rotating shaft body provided in one embodiment of this application. (Reference) Figures 5-7As shown, the hinge assembly 300 includes a hinge mounting plate 31, a hinge housing 32, and a hinge body 33. The hinge mounting plate 31 is used to fix the hinge to the display body 100, the hinge body 33 is used to fix the hinge to the lifting assembly 500 in the bracket 200, and the hinge housing 32 covers the outside of the hinge body 33 to improve the appearance.

[0084] Specifically, the hinge mounting plate 31 can be fixedly connected to the back plate of the display module 12 by means of threaded fasteners or other structures. The hinge mounting plate 31 is located on the side of the back cover 112 facing the display module 12, that is, on the side of the first opening 1121 facing the interior of the display body 100.

[0085] The hinge housing 32 may include a shielding cover 321 and a shielding cover 322. The shielding cover 321 is plate-shaped, such as a circular plate with the same shape as the first opening 1121. The shielding cover 321 can be fixedly connected to the hinge mounting plate 31 by snap-fit, screw-fit, or other means. The shielding cover 321 is used to cover the outside of the first opening 1121 to shield the first opening 1121 and prevent the hinge mounting plate 31 and the display module 12 from being exposed to the outside of the first opening 1121, thereby improving safety and aesthetics. The shielding cover 322 is cylindrical and is used to cover the outside of the hinge body 33 to protect the hinge body 33 and enhance its aesthetics. The shielding cover 321 and the shielding cover 322 can be integrally formed by injection molding or other processes, or fixedly connected by snap-fit, screw-fit, adhesive, or other means.

[0086] The pivot body 33 is the main component of the pivot assembly 300, used to achieve the function of rotation to adjust the tilt angle of the display body 100. The pivot body 33 mainly includes a swing arm 331, a pivot 332, a fixing member 333, and a torsion spring 334. The swing arm 331 and the fixing member 333 are used to fix the display body 100 and the bracket 200, respectively. The swing arm 331 and the fixing member 333 are connected by the pivot 332, so that the swing arm 331 can rotate relative to the fixing member 333 with the pivot 332 as the axis.

[0087] Specifically, the extension direction of the rotating shaft 332 is parallel to the plane where the display body 100 is located and perpendicular to the extension direction of the slide rail 52, that is, the Y direction in the figure represents the length direction of the display body 100, so that when the swing arm 331 rotates around the rotating shaft 332, it can drive the display body 100 to adjust the tilt angle. The swing arm 331 is provided with a first rotating shaft hole 3311, and the fixing member 333 is provided with a second rotating shaft hole 3331. The rotating shaft 332 passes through the first rotating shaft hole 3311 and the second rotating shaft hole 3331, and is locked and fixed by components such as nuts and washers.

[0088] The end of the swing arm 331 away from the first pivot hole 3311 can be fixedly connected to the display body 100, for example, by screwing it onto the back plate of the display module 12. There can be two swing arms 331, arranged opposite each other, with the end of the fixing member 333 having the second pivot hole 3331 sandwiched between the two swing arms 331. A fixing boss 3332 is provided at the end of the fixing member 333 away from the second pivot hole 3331. A sixth opening 3221 is provided on the end face of the shield 322 of the pivot housing 32 away from the shield cover 321. The fixing boss 3332 extends from the sixth opening 3221 and is used to fixably connect to the lifting assembly 500.

[0089] The swing arm 331 is also provided with a limiting groove 3312, and the fixing member 333 is correspondingly provided with a limiting block (not shown in the figure). When the swing arm 331 and the fixing member 333 are connected by the rotating shaft 332, the limiting block is located in the limiting groove 3312. During the rotation of the swing arm 331, the limiting groove 3312 can limit the range of motion of the limiting block, thereby limiting the rotation angle of the swing arm 331 and keeping the pitch angle of the display body 100 within a preset range. The torsion spring 334 is sleeved on the rotating shaft 332 and is used to preload to counteract the gravitational torque from the display body 100, which can improve the rotation feel.

[0090] Figure 8 This is a structural schematic diagram of the frame body, lifting component, and cable management component provided in an embodiment of this application. Figure 9 This is an exploded view of the frame body, lifting assembly, and cable management assembly provided in one embodiment of this application. (See reference...) Figure 8 and Figure 9 As shown, the lifting assembly 500 may include a slider 51, a slide rail 52, a first fixing plate 53, a slide rail connector 54, a cable fixing seat 55, and a slide rail fixing plate 57.

[0091] The slide rail 52 extends along the height of the display and is fixedly connected to the frame body 23 via the slide rail fixing plate 57. The slider 51 and the slide rail connector 54 are connected within the slide rail 52 and can slide within it. The first fixing plate 53 is fixedly connected to both the slider 51 and the pivot assembly 300, allowing the pivot assembly 300 to drive the display body 100 to rise and fall as the slider 51 slides. The cable holder 55 is fixedly connected to the first fixing plate 53 to secure the cable 13. After the cable 13 is secured by the cable holder 55, the cable management assembly 600 manages the cable. The cable management assembly 600 is fixedly connected to the slide rail connector 54, and the slide rail connector 54 drives the cable management assembly 600 to slide relative to the slide rail 52.

[0092] Feasibly, the slide rail 52 includes a left slide rail 52a and a right slide rail 52b, which are symmetrically arranged. The two ends of the first fixing plate 53 are respectively connected to the left slide rail 52a and the right slide rail 52b through sliders 51. The two ends of the cable management assembly 600 are respectively connected to the left slide rail 52a and the right slide rail 52b through slide rail connectors 54, so that the connection between the first fixing plate 53 and the cable management assembly 600 and the slide rail 52 is more reliable and the sliding process is more stable.

[0093] Figure 10 This is a three-dimensional structural diagram of the slider and slide rail provided in one embodiment of this application. Figure 11 This is a schematic diagram of the planar structure of a slider and a slide rail according to an embodiment of this application. (Reference) Figure 11 and Figure 12 As shown, the slide rail 52 includes an outer slide rail 521, an inner slide rail 522, and a steel ball 523. The slider 51 is located inside the inner slide rail 522, and the inner slide rail 522 is located inside the outer slide rail 521. The steel ball 523 is embedded in the inner slide rail 522 and simultaneously contacts the slider 51 and the outer slide rail 521.

[0094] Under the rolling action of the steel ball 523, the slider 51 and the inner slide rail 522 generate relative motion, and the inner slide rail 522 and the outer slide rail 521 generate relative motion. After two relative motion conversions, the speed of the slider 51 relative to the outer slide rail 521 is twice that of the inner slide rail 522 relative to the outer slide rail 521. The first fixed plate 53 is fixed on the slider 51, driving the rotating shaft assembly 300 to move synchronously with the slider 51. The slide rail connector 54 is fixedly connected to the inner slide rail 522, driving the cable management assembly 600 to move synchronously with the inner slide rail 522, thereby realizing that the movement speed of the rotating shaft assembly 300 is twice that of the cable management assembly 600, thus realizing differential speed cable management between the cable management assembly 600 and the rotating shaft assembly 300.

[0095] Figure 12 This is a schematic diagram of the assembled structure of the shaft body, the first fixing plate, and the cable fixing seat according to an embodiment of this application. Figure 13 This is an exploded view of the rotating shaft body, the first fixing plate, and the cable fixing seat according to an embodiment of this application. (See reference) Figure 12 and Figure 13 As shown, the rotating shaft body 33 and the first fixing plate 53 are fixedly connected. Specifically, the frame body 23 is provided with a third opening 2311 corresponding to the second opening 211 on the front cover 21. The fixing boss 3332 extends into the second opening 211 and the third opening 2311 and is fixed to the fixing part 531 of the first fixing plate 53 by means of screw connection or other means.

[0096] The first fixing plate 53 is also provided with a wire-passing hole 533 for the cable 13 to pass through. The cable fixing seat 55 is fixed on the side of the first fixing plate 53 away from the rotating shaft body 33. After the cable 13 passes through the wire-passing hole 533, it is fixed on the cable fixing seat 55. The specific structure of the cable fixing seat 55 includes multiple wire-holding grooves 551, which can reliably fix the cable 13.

[0097] In one possible implementation, there are two cables 13. In this case, the cable management assembly 600 needs to be configured so that the two cables do not interfere with each other. Figure 14 This is an exploded view of a cable management component provided in one embodiment of this application. Figure 15 This is a schematic diagram of the cable management holder from another angle, according to an embodiment of this application. (See reference...) Figure 14 and Figure 15 As shown, the cable management assembly 600 may include a second fixing plate 61, a cable management base 62, a cable management roller 63, and a cable management baffle 64.

[0098] The second fixing plate 61 can be fixedly connected to the inner slide rail 522 via the slide rail connector 54. The second fixing plate 61 moves synchronously with the inner slide rail 522, that is, it slides relative to the outer slide rail 521. The cable management base 62 is fixed on the second fixing plate 61 and is located on the side of the second fixing plate 61 facing the first fixing plate 53. The first cable 131 and the second cable 132, which pass through the cable hole 533 of the first fixing plate 53, are respectively wound around two sets of cable management rollers 63 fixed on the front and back sides of the cable management base 62. The axis of the cable management rollers 63 is perpendicular to the extension direction of the slide rail 52, so that the cable 13 wound around the cable management rollers 63 can move along the extension direction of the slide rail 52, that is, change position as the display body 100 rises and falls. The cable management baffle 64 is located on the side of the cable management base 62 facing the first fixing plate 53. The second fixing plate 61 and the cable management baffle 64 are used to prevent the first cable 131 and the second cable 132 from falling off the cable management rollers 63.

[0099] The first cable 131 is located between the cable management base 62 and the second fixing plate 61, and the cable routing direction is as follows: Figure 14 As shown by the arrow, the first cable 131 passes through the first fixing plate 53 and is fixed by the cable fixing seat 55. Then, it passes through the cable management baffle 64 and the cable management seat 62 and is wound around the cable management roller 63 on the side of the cable management seat 62 facing the second fixing plate 61. There are multiple cable management rollers 63, which are arranged in an arc or semi-circle to restrain the routing of the first cable 131 and ensure that the moving part of the cable 131 meets the minimum radius requirement of the first cable 131. The rolling action of the cable management rollers 63 can assist the movement of the cable, reduce the pulling and friction of the second cable 132, and make the movement of the first cable 131 relative to the cable management seat 62 smoother.

[0100] The second cable 132 is located between the cable management base 62 and the cable management baffle 64, and its routing direction is as follows: Figure 15 As shown by the arrow, the second cable 132 passes through the rotating shaft fixing plate 53 and is fixed by the cable fixing seat 55. After passing through the cable management baffle 64, it is wound around the cable management roller 63 on the side of the cable management seat 62 facing the cable management baffle 64. There are multiple cable management rollers 63, which are arranged in an arc or semi-circle to restrain the routing of the second cable 132 and ensure that the moving part of the second cable 132 meets the minimum radius requirement of the second cable 132. The rolling action of the cable management rollers 63 can assist the movement of the cable, reduce the pulling and friction of the second cable 132, and make the movement of the second cable 132 relative to the cable management seat 62 smoother.

[0101] The first cable 131 and the second cable 132 are fixed to the front and back sides of the cable management base 62, respectively. The winding directions of the first cable 131 and the second cable 132 are opposite, and they are spaced apart along the length of the monitor body 100, so they will not interfere with each other and can ensure the orderly raising and lowering of the first cable 131 and the second cable 132. It is easy to understand that the two ends of the cable 13 are fixed to the cable fixing base 55 and the motherboard 700, respectively, and the remaining length is wound around the cable management base 62. During the raising and lowering of the cable management base 62, the lengths of the first cable 131 and the second cable 132 remain unchanged. Only the position of the cable 13 on the cable management roller 63 changes. Therefore, the cable 13 will not be pulled, tangled, or stuck, and the reliability of the cable 13 itself and the reliability of its fixation to the motherboard 700 will not be affected.

[0102] Figure 16 This is a schematic diagram illustrating the sliding state changes of the cable management assembly and the first fixing plate on the slide rail, according to an embodiment of this application. (See reference...) Figure 16 As shown, the lifting assembly 500 also includes a constant force spring 56. One end of the constant force spring 56 is fixed to the slider 51, and the other end is fixed to the frame plate 231 of the frame body 23 through the constant force spring seat 561. The constant force spring 56 is used to provide a constant elastic force to ensure that the slider 51 is subjected to uniform force during the sliding process, thereby improving the stability of the lifting of the display body 100.

[0103] refer to Figure 16 The shape changes of the first cable 131 and the second cable 132, as well as the position changes of the cable management assembly 600 and the first fixing plate 53, show that the movement speed of the first fixing plate 53 is twice that of the cable management assembly 600. Therefore, during the lifting and lowering process of the first fixing plate 53 and the cable management assembly 600, the cable 13 at the cable management assembly 600 always has slack, and there will be no cable jamming or strong pulling. This ensures the reliability of the cable 13's engagement with the motherboard 700 and enables the orderly lifting and lowering of the cable 13.

[0104] In another possible implementation, the number of cables 13 is one. Figure 17 This is a schematic diagram of another cable management component provided in one embodiment of this application. (See reference...) Figure 17 As shown, the cable management assembly 600 may include a second fixing plate 61, a cable management base 62, and cable management rollers 63. The second fixing plate 61 is disposed within the outer slide rail 521 and can slide within the outer slide rail 521. The cable management base 62 is fixed to the second fixing plate 61 and is located on the side of the second fixing plate 61 facing the first fixing plate 53. The axis of the cable management rollers 63 is perpendicular to the extension direction of the slide rail 52. The cable 13 passing through the cable hole 533 of the first fixing plate 53 is wound around the periphery of the cable management rollers 63 on the cable management base 62. Multiple cable management rollers 63 are arranged in an arc or semi-circular shape. Under the rolling action of the cable management rollers 63, the cable 13 moves more smoothly relative to the cable management base 62. It is easy to understand that when there is only one cable 13, the structure of the cable management assembly 600 is simpler. The second fixing plate 61 simultaneously serves to slide relative to the outer slide rail 521 and prevent the cable 13 from falling off the cable management rollers 63.

[0105] Figure 18 This is an exploded structural diagram of a base provided according to an embodiment of this application. (See reference...) Figure 18 As shown, the base 400 includes an upper cover 41 and a lower shell 42. The upper cover 41 and the lower shell 42 are fixedly connected by snap-fit, screw-fit, or other means, forming a receiving space. The receiving space contains a device 43, which may include a near-field communication (NFC) antenna, a wireless charging coil, etc., to make full use of the space of the base 400 and add practical functions such as near-field communication and wireless charging to the display.

[0106] The monitor and computer provided in this application embodiment, by placing the motherboard inside the bracket, eliminate the thickness limitation of the monitor body from the motherboard, enabling an ultra-thin monitor body design. The cables of the display module inside the monitor body are connected to the motherboard inside the bracket. By incorporating cable management and lifting components, reliable cable connections are achieved, and the orderly raising and lowering of cables during the monitor body's lifting process is ensured.

[0107] In this application embodiment, it should be noted that, unless otherwise explicitly specified and limited, the terms "installation," "connection," and "linking" should be interpreted broadly. For example, they can refer to a fixed connection, an indirect connection through an intermediate medium, or the internal connection of two components or the interaction between two components. Those skilled in the art can understand the specific meaning of the above terms in this application embodiment according to the specific circumstances. The terms "first," "second," and "third," etc., in the specification, claims, and accompanying drawings of this application embodiment are used to distinguish similar objects and are not necessarily used to describe a specific order or sequence.

[0108] Furthermore, the terms “comprising” and “having”, and any variations thereof, are intended to cover non-exclusive inclusion, such that a process, method, system, product, or apparatus that includes a series of steps or units is not necessarily limited to those steps or units that are explicitly listed, but may include other steps or units that are not explicitly listed or that are inherent to such process, method, product, or apparatus.

[0109] Finally, it should be noted that the above embodiments are only used to illustrate the technical solutions of the embodiments of this application, and are not intended to limit them; although the embodiments of this application have been described in detail with reference to the foregoing embodiments, those skilled in the art should understand that they can still modify the technical solutions described in the foregoing embodiments, or make equivalent substitutions for some or all of the technical features; and these modifications or substitutions do not cause the essence of the corresponding technical solutions to deviate from the scope of the technical solutions of the embodiments of this application.

Claims

1. A display, characterized in that, include: Motherboard, display body, and bracket for supporting the display body; The display body includes a housing, a display module mounted on the housing, and a hinge assembly. The bracket is disposed on the side of the housing opposite to the display module. The motherboard is disposed within the bracket. The cables of the display module pass through the hinge assembly and extend into the bracket to connect to the motherboard. A speaker is also disposed within the bracket. The speaker is connected to the motherboard and is located below the motherboard. The speaker's sound outlet faces the front of the bracket that faces the display body. The bracket is equipped with an I / O board, and the bracket is equipped with an I / O interface that is connected to the I / O board. The I / O interface is located on the back of the bracket away from the main body of the display and / or on the side of the bracket. The display also includes a lifting assembly and a cable management assembly. The lifting assembly is located above the motherboard. The lifting assembly includes a slider and a slide rail. The slider is fixedly connected to the display body, and the slide rail is fixedly connected to the bracket. One end of the cable extending into the bracket is fixedly connected to the slider, and the other end passes through the cable management assembly and is fixed to the motherboard. The slider and the cable management assembly are slidably connected to the slide rail.

2. The display according to claim 1, characterized in that, The sliding speed of the cable management component relative to the slide rail is less than the sliding speed of the slider relative to the slide rail.

3. The display according to claim 2, characterized in that, The slide rail includes an outer slide rail, an inner slide rail, and a steel ball. The slider is disposed inside the inner slide rail, and the inner slide rail is disposed inside the outer slide rail. The cable management assembly is fixed on the inner slide rail. The steel ball is embedded in the inner slide rail and simultaneously rolls with the slider and the outer slide rail, so that the sliding speed of the inner slide rail relative to the outer slide rail is half the sliding speed of the slider relative to the slide rail.

4. The display according to claim 2, characterized in that, The lifting assembly further includes a first fixing plate and a cable fixing seat. The first fixing plate is disposed between the display body and the cable management assembly. The first fixing plate is fixedly connected to the slider and the display body. The cable fixing seat is installed on the side of the first fixing plate facing the cable management assembly, and the cable is snapped and fixed on the cable fixing seat.

5. The display according to claim 4, characterized in that, The lifting assembly also includes a constant force spring, which is fixed to the bracket by a constant force spring seat, and the end of the constant force spring is fixed to the slider.

6. The display according to claim 3, characterized in that, The cable management assembly includes a cable management base and a cable management roller. The cable management base is fixedly connected to the inner slide rail, and the cable management roller is fixed to the cable management base with its axis perpendicular to the extension direction of the slide rail. The cable is wound around the periphery of the cable management roller.

7. The display according to claim 6, characterized in that, The number of the cable management rollers is multiple, and the multiple cable management rollers are arranged in an arc or semi-circular shape on the surface of the cable management seat.

8. The display according to claim 6, characterized in that, The cable management assembly also includes a second fixing plate, which is fixedly connected to the inner slide rail. The cable management seat is fixed on the second fixing plate, and the cable management roller is provided on the side of the cable management seat facing the second fixing plate.

9. The display according to claim 8, characterized in that, The cable management assembly further includes a cable management baffle, which is fixed on the cable management base and located on the side of the cable management base away from the second fixing plate. The cable management roller is provided on the side of the cable management base facing the cable management baffle.

10. The display according to claim 9, characterized in that, The cable includes a first cable and a second cable, which are respectively wound around the cable management rollers located on both sides of the cable management base.

11. The display according to any one of claims 2-10, characterized in that, The display body is connected to the slider via the pivot assembly. The axis of the pivot assembly is parallel to the plane where the display body is located and perpendicular to the extension direction of the slide rail. The display body can rotate relative to the slider.

12. The display according to claim 11, characterized in that, The rotating shaft assembly includes a rotating shaft body, which includes a swing arm, a rotating shaft, and a fixing member. The swing arm is fixedly connected to the display body, and the fixing member is fixedly connected to the slider. The swing arm is rotatably connected through the rotating shaft and the fixing member.

13. The display according to claim 12, characterized in that, The hinge assembly further includes a hinge mounting plate and a hinge housing. The hinge housing includes a shielding cover and a shielding shield. A first opening is provided on the housing. The hinge mounting plate is fixedly connected to the back plate of the display module. The shielding cover is fixedly connected to the hinge mounting plate and covers the first opening. The shielding shield covers the hinge body and is fixedly connected to the shielding cover. The cable of the display module extends from the first opening and passes through the shielding cover and the shielding shield.

14. The display according to any one of claims 2-10 and 12-13, characterized in that, The bracket includes a front shell, a rear shell, and a frame body located between the front shell and the rear shell. The slide rail is fixed on the frame body. A second opening is provided on the front shell. The extension direction of the second opening is consistent with the extension direction of the slide rail. The cable extends into the bracket through the second opening.

15. The display according to any one of claims 1-10 and 12-13, characterized in that, The I / O interface is located near the bottom of the bracket.

16. The display according to any one of claims 1-10 and 12-13, characterized in that, The display also includes a base, which is supported at the bottom of the bracket, and the base contains a near-field communication (NFC) chip and / or a wireless charging coil.

17. A computer, characterized in that, Includes the host and the display as described in any one of claims 1-16.

Images