CN110401007B - Electronic devices - Google Patents

Abstract

Translated fromChinese

本发明公开一种电子设备，包括屏幕主体，所述屏幕主体包括金属背壳、屏幕、转轴结构、绝缘转轴盖、绝缘支架以及天线结构，所述屏幕容设在所述金属背壳，所述转轴结构和所述绝缘支架位于所述屏幕的下侧，所述绝缘支架固设在所述金属背壳的内壁，所述天线结构包括辐射体和接地部，所述天线结构设置在所述绝缘支架上以将其辐射体与所述金属背壳隔开，所述天线结构与所述转轴结构相间隔，所述绝缘转轴盖罩设在所述转轴结构、绝缘支架及天线结构外侧。本发明的电子设备可以利用绝缘支架和绝缘转轴盖同时为天线结构创造净空区，从而可以保证本发明的天线结构在进行可靠信号传输的基础上不会影响窄边框全面屏和全金属等设计。

The present invention discloses an electronic device, including a screen body, the screen body including a metal back shell, a screen, a rotating shaft structure, an insulating rotating shaft cover, an insulating bracket and an antenna structure, the screen is accommodated in the metal back shell, the rotating shaft structure and the insulating bracket are located at the lower side of the screen, the insulating bracket is fixed to the inner wall of the metal back shell, the antenna structure includes a radiator and a grounding part, the antenna structure is arranged on the insulating bracket to separate its radiator from the metal back shell, the antenna structure is spaced apart from the rotating shaft structure, and the insulating rotating shaft cover is arranged outside the rotating shaft structure, the insulating bracket and the antenna structure. The electronic device of the present invention can use the insulating bracket and the insulating rotating shaft cover to create a clearance area for the antenna structure at the same time, so as to ensure that the antenna structure of the present invention will not affect the narrow-frame full-screen and all-metal designs on the basis of reliable signal transmission.

Description

Translated fromChinese

电子设备Electronic devices

技术领域Technical Field

本发明涉及电子设备技术领域，尤其涉及一种电子设备。The present invention relates to the technical field of electronic equipment, and in particular to an electronic equipment.

背景技术Background Art

移动终端由于其位置的不确定性，对天线的方向性要求很高。当移动终端旋转时不能出现信号死角，导致不能正常网络连接。笔记本电脑为了天线方向性设计通常将天线设计在屏幕上侧。在屏幕上侧这个区域，净空区大，周边没有金属遮挡，天线方向性好。但是近些年来，随着窄边框全面屏和全金属等创新设计的提出，再继续在屏幕上侧设计天线毫无疑问会对此造成影响。Due to the uncertainty of the position of mobile terminals, the directivity of antennas is very high. When the mobile terminal rotates, there must be no signal dead spots, resulting in failure to connect to the network normally. Laptops usually design antennas on the upper side of the screen for antenna directivity. In this area on the upper side of the screen, there is a large clearance area, no metal obstructions around, and good antenna directivity. However, in recent years, with the introduction of innovative designs such as narrow-frame full-screen and all-metal, continuing to design antennas on the upper side of the screen will undoubtedly have an impact on this.

发明内容Summary of the invention

本发明的目的在于提供一种电子设备，其天线的设置不会影响其窄边框全面屏和全金属等设计。The object of the present invention is to provide an electronic device, the arrangement of whose antenna will not affect its narrow-frame full-screen and all-metal designs.

为实现上述目的，本发明提供了一种电子设备，包括屏幕主体，所述屏幕主体包括金属背壳、屏幕、转轴结构、绝缘转轴盖、绝缘支架以及天线结构，所述屏幕容设在所述金属背壳，所述转轴结构和所述绝缘支架位于所述屏幕的下侧，所述绝缘支架固设在所述金属背壳的内壁，所述天线结构包括辐射体和接地部，所述天线结构设置在所述绝缘支架上以使其辐射体与所述金属背壳隔开，所述天线结构与所述转轴结构相间隔，所述绝缘转轴盖罩设在所述转轴结构、绝缘支架及天线结构外侧。To achieve the above-mentioned purpose, the present invention provides an electronic device, including a screen main body, the screen main body including a metal back shell, a screen, a hinge structure, an insulating hinge cover, an insulating bracket and an antenna structure, the screen is accommodated in the metal back shell, the hinge structure and the insulating bracket are located on the lower side of the screen, the insulating bracket is fixed to the inner wall of the metal back shell, the antenna structure includes a radiator and a grounding portion, the antenna structure is arranged on the insulating bracket so that its radiator is separated from the metal back shell, the antenna structure is spaced apart from the hinge structure, and the insulating hinge cover is arranged on the outside of the hinge structure, the insulating bracket and the antenna structure.

较佳地，所述天线结构通过一柔性导电片接地，所述柔性导电片的一端贴设在所述接地部，所述柔性导电片的另一端贴设在所述金属背壳的内壁。Preferably, the antenna structure is grounded through a flexible conductive sheet, one end of the flexible conductive sheet is attached to the grounding portion, and the other end of the flexible conductive sheet is attached to the inner wall of the metal back shell.

较佳地，所述天线结构还包括线路板，所述辐射体和所述接地部平面贴设在所述线路板上，所述天线结构还包括贴设在所述线路板上且分别间隔设置在所述辐射体的相对两侧的方向性挡墙，所述接地部连接在所述方向性挡墙之间。Preferably, the antenna structure also includes a circuit board, the radiator and the grounding portion are flatly attached to the circuit board, the antenna structure also includes directional retaining walls attached to the circuit board and spaced apart on opposite sides of the radiator, and the grounding portion is connected between the directional retaining walls.

较佳地，所述方向性挡墙分别位于所述辐射体的沿所述绝缘转轴盖的延伸方向的相对两侧。Preferably, the directional retaining walls are respectively located on two opposite sides of the radiator along the extending direction of the insulating shaft cover.

较佳地，所述绝缘支架包括与所述屏幕呈角度设置的支撑板部，所述支撑板部位于所述金属背壳的下侧沿的上侧且向外超出所述金属背壳的下侧沿，所述天线结构贴设在所述支撑板部的与所述金属背壳的下侧沿相反的一侧。Preferably, the insulating bracket includes a support plate portion arranged at an angle to the screen, the support plate portion is located on the upper side of the lower edge of the metal back shell and extends outwardly beyond the lower edge of the metal back shell, and the antenna structure is attached to the side of the support plate portion opposite to the lower edge of the metal back shell.

较佳地，所述支撑板部的底部设有多个翅片。Preferably, a plurality of fins are provided at the bottom of the support plate portion.

较佳地，所述绝缘支架还包括挡板部，所述挡板部由所述支撑板部的靠近所述金属背壳的一侧向上伸出以隔开所述金属背壳和所述天线结构。Preferably, the insulating support further comprises a baffle portion, and the baffle portion extends upward from a side of the supporting plate portion close to the metal back shell to separate the metal back shell and the antenna structure.

较佳地，所述接地部邻近所述挡板部，所述天线结构通过一柔性导电片接地，所述柔性导电片的一端贴设在所述接地部，所述柔性导电片的中部贴设在所述挡板部，所述柔性导电片的另一端由所述挡板部的上端经过后沿所述金属背壳的内壁向上贴设。Preferably, the grounding portion is adjacent to the baffle portion, and the antenna structure is grounded through a flexible conductive sheet, one end of the flexible conductive sheet is attached to the grounding portion, the middle portion of the flexible conductive sheet is attached to the baffle portion, and the other end of the flexible conductive sheet passes through the upper end of the baffle portion and is attached upward along the inner wall of the metal back shell.

较佳地，所述转轴结构和所述天线结构均设置在所述绝缘支架上，所述绝缘支架上形成有若干走线卡位以供所述天线结构的馈线进行走线。Preferably, the rotating shaft structure and the antenna structure are both arranged on the insulating bracket, and a plurality of routing positions are formed on the insulating bracket for routing the feeder line of the antenna structure.

较佳地，所述天线结构的数量为二，沿所述绝缘转轴盖的延伸方向间隔设置。Preferably, the number of the antenna structures is two, and they are arranged at intervals along the extension direction of the insulating shaft cover.

与现有技术相比，本发明的电子设备具有位于屏幕的下侧且固定在金属背壳的内壁的绝缘支架，天线结构设置在绝缘支架上以使其辐射体与金属背壳隔开，天线结构与转轴结构相间隔，绝缘转轴盖罩设在转轴结构、绝缘支架及天线结构外侧，进而使得本发明的电子设备可以利用绝缘支架和绝缘转轴盖同时为天线结构创造净空区，从而可以保证本发明的天线结构在进行可靠信号传输的基础上不会影响窄边框全面屏和全金属等设计。Compared with the prior art, the electronic device of the present invention has an insulating bracket located on the lower side of the screen and fixed to the inner wall of the metal back shell, the antenna structure is arranged on the insulating bracket to separate the radiator from the metal back shell, the antenna structure is spaced apart from the hinge structure, and the insulating hinge cover is arranged on the outside of the hinge structure, the insulating bracket and the antenna structure, so that the electronic device of the present invention can use the insulating bracket and the insulating hinge cover to create a clearance area for the antenna structure at the same time, thereby ensuring that the antenna structure of the present invention will not affect the narrow-frame full-screen and all-metal designs on the basis of reliable signal transmission.

附图说明BRIEF DESCRIPTION OF THE DRAWINGS

图1是本发明实施例电子设备的立体结构示意图。FIG. 1 is a schematic diagram of the three-dimensional structure of an electronic device according to an embodiment of the present invention.

图2是本发明实施例电子设备的分解结构示意图FIG. 2 is a schematic diagram of the exploded structure of an electronic device according to an embodiment of the present invention.

图3是图1隐藏部分结构后的立体结构示意图。FIG. 3 is a schematic diagram of the three-dimensional structure of FIG. 1 after partially hiding the structure.

图4是图1的分解结构示意图。FIG. 4 is a schematic diagram of the exploded structure of FIG. 1 .

图5是本发明实施例天线结构和柔性导电片的结构示意图。FIG. 5 is a schematic diagram of the structure of the antenna structure and the flexible conductive sheet according to an embodiment of the present invention.

具体实施方式DETAILED DESCRIPTION

为了详细说明本发明的技术内容、构造特征，以下结合实施方式并配合附图作进一步说明。In order to explain the technical content and structural features of the present invention in detail, further description will be given below in combination with the implementation modes and the accompanying drawings.

为便于进行结构描述，在本发明中，以屏幕本体的远离转轴结构的一端为屏幕本体的上端，以屏幕本体设有转轴结构的一端为下端，本发明中出现的“上”、“下”、“底”等方位词皆以此为参照。To facilitate structural description, in the present invention, the end of the screen body away from the rotating shaft structure is the upper end of the screen body, and the end of the screen body with the rotating shaft structure is the lower end. The directional words such as "upper", "lower", and "bottom" appearing in the present invention are all used as reference.

请参阅图1至图5，本发明公开了一种电子设备，包括屏幕主体100，屏幕主体100包括金属背壳1、屏幕2、转轴结构3、绝缘转轴盖4、绝缘支架5以及天线结构6，屏幕2容设在金属背壳1，转轴结构3和绝缘支架5位于屏幕2的下侧，绝缘支架5固设在金属背壳1的内壁，天线结构6包括辐射体60和接地部61，天线结构6设置在绝缘支架5上以使其辐射体60与金属背壳1隔开，天线结构6与转轴结构3相间隔，绝缘转轴盖4罩设在转轴结构3、绝缘支架5及天线结构6外侧。具体而言，辐射体60上设有馈电点601以进行馈电；由于转轴结构3通常为金属结构，此时天线结构6与转轴结构3之间的间隔距离需要保证天线结构6的性能基本不受转轴结构3的影响。Referring to FIGS. 1 to 5 , the present invention discloses an electronic device, including a screen body 100, the screen body 100 including a metal back shell 1, a screen 2, a rotating shaft structure 3, an insulating rotating shaft cover 4, an insulating bracket 5 and an antenna structure 6, the screen 2 is accommodated in the metal back shell 1, the rotating shaft structure 3 and the insulating bracket 5 are located at the lower side of the screen 2, the insulating bracket 5 is fixed to the inner wall of the metal back shell 1, the antenna structure 6 includes a radiator 60 and a grounding portion 61, the antenna structure 6 is arranged on the insulating bracket 5 so that the radiator 60 is separated from the metal back shell 1, the antenna structure 6 is spaced from the rotating shaft structure 3, and the insulating rotating shaft cover 4 is covered on the outer side of the rotating shaft structure 3, the insulating bracket 5 and the antenna structure 6. Specifically, a feeding point 601 is provided on the radiator 60 for feeding; since the rotating shaft structure 3 is usually a metal structure, the spacing distance between the antenna structure 6 and the rotating shaft structure 3 needs to ensure that the performance of the antenna structure 6 is basically not affected by the rotating shaft structure 3.

通过上述设计，本发明的电子设备可以利用绝缘支架5和绝缘转轴盖4同时为天线结构6创造净空区，从而可以保证本发明的天线结构6在进行可靠信号传输的基础上不会影响窄边框全面屏和全金属等设计。Through the above design, the electronic device of the present invention can use the insulating bracket 5 and the insulating shaft cover 4 to simultaneously create a clearance area for the antenna structure 6, thereby ensuring that the antenna structure 6 of the present invention will not affect the narrow-frame full-screen and all-metal designs while performing reliable signal transmission.

请参阅图3至图5，在一些实施例中，天线结构6通过一柔性导电片7接地，柔性导电片7的一端贴设在接地部61，柔性导电片7的另一端贴设在金属背壳1的内壁；具体而言，柔性导电片7为导电布。通过柔性导电片7的两端分别贴设在接地部61和金属背壳1的内壁，使得天线结构6的接地更加稳定。Referring to FIG. 3 to FIG. 5 , in some embodiments, the antenna structure 6 is grounded through a flexible conductive sheet 7, one end of the flexible conductive sheet 7 is attached to the grounding portion 61, and the other end of the flexible conductive sheet 7 is attached to the inner wall of the metal back shell 1; specifically, the flexible conductive sheet 7 is a conductive cloth. By attaching the two ends of the flexible conductive sheet 7 to the grounding portion 61 and the inner wall of the metal back shell 1 respectively, the grounding of the antenna structure 6 is more stable.

请参阅图5，在一些实施例中，天线结构6还包括线路板62，辐射体60和接地部61平面贴设在线路板62上，天线结构6还包括贴设在线路板62上且分别间隔设置在辐射体60的相对两侧的方向性挡墙63，接地部61连接在方向性挡墙63之间。由于天线结构6为PCB天线，辐射体60只能平面走线，加上全金属设计的环境限制，使得辐射体60的辐射方向性较差，有些角度容易出现辐射死角，而通过方向性挡墙63的设计有效改善了天线结构6的辐射方向性，使天线结构6可以向空间360度均匀辐射。具体地，方向性挡墙63分别位于辐射体60的沿绝缘转轴盖4的延伸方向的相对两侧。Please refer to FIG. 5. In some embodiments, the antenna structure 6 further includes a circuit board 62, the radiator 60 and the grounding portion 61 are flatly attached to the circuit board 62, the antenna structure 6 further includes directional retaining walls 63 attached to the circuit board 62 and spaced apart on opposite sides of the radiator 60, and the grounding portion 61 is connected between the directional retaining walls 63. Since the antenna structure 6 is a PCB antenna, the radiator 60 can only be arranged in a plane, and coupled with the environmental restrictions of the all-metal design, the radiation directivity of the radiator 60 is poor, and some angles are prone to radiation dead angles. The design of the directional retaining walls 63 effectively improves the radiation directivity of the antenna structure 6, so that the antenna structure 6 can radiate uniformly 360 degrees into space. Specifically, the directional retaining walls 63 are respectively located on opposite sides of the radiator 60 along the extension direction of the insulating shaft cover 4.

请参阅图5，在一些实施例中，方向性挡墙63于远离接地部61的一侧向外超出辐射体60，从而起到更好的阻挡作用，进而更好的改善天线结构6的辐射方向性。具体而言，方向性挡墙63的两侧缘分别与线路板62的两侧缘大致平齐，接地部61邻设在线路板62的一侧缘处，辐射体60与线路板62的远离接地部61的侧缘间隔设置。Please refer to FIG5 , in some embodiments, the directional retaining wall 63 extends outwardly beyond the radiator 60 on the side away from the grounding portion 61, thereby playing a better blocking role, and further improving the radiation directivity of the antenna structure 6. Specifically, the two side edges of the directional retaining wall 63 are respectively substantially flush with the two side edges of the circuit board 62, the grounding portion 61 is adjacent to one side edge of the circuit board 62, and the radiator 60 is spaced apart from the side edge of the circuit board 62 away from the grounding portion 61.

请参阅图4，在一些实施例中，绝缘支架5包括与屏幕2呈角度设置的支撑板部51，支撑板部51位于金属背壳1的下侧沿11的上侧且向外超出金属背壳1的下侧沿11，天线结构6贴设在支撑板部51的与金属背壳1的下侧沿11相反的一侧。通过上述设计，有利于天线结构6稳固地设置在绝缘支架5上，而且由于支撑板部51向外超出金属背壳1的下侧沿11，使得支撑板部51有足够的空间来设置天线结构6。Please refer to FIG. 4 . In some embodiments, the insulating support 5 includes a support plate portion 51 arranged at an angle to the screen 2. The support plate portion 51 is located above the lower edge 11 of the metal back shell 1 and extends outwardly beyond the lower edge 11 of the metal back shell 1. The antenna structure 6 is attached to the side of the support plate portion 51 opposite to the lower edge 11 of the metal back shell 1. The above design facilitates the antenna structure 6 to be stably arranged on the insulating support 5. Moreover, since the support plate portion 51 extends outwardly beyond the lower edge 11 of the metal back shell 1, there is enough space in the support plate portion 51 to arrange the antenna structure 6.

请参阅图3，在一些实施例中，支撑板部51的底部设有多个翅片52。通过该设计，便于天线结构6的散热。Please refer to Fig. 3, in some embodiments, a plurality of fins 52 are provided at the bottom of the support plate portion 51. This design facilitates heat dissipation of the antenna structure 6.

请参阅图3和图4，在一些实施例中，绝缘支架5还包括挡板部53，挡板部53由支撑板部51的靠近金属背壳1的一侧向上伸出以隔开金属背壳1和天线结构6。通过挡板部53和支撑板部51的共同作用，能够更好地为天线结构6提供净空区，以保证信号传输的可靠性。Referring to FIG. 3 and FIG. 4 , in some embodiments, the insulating bracket 5 further includes a baffle portion 53, which extends upward from a side of the support plate portion 51 close to the metal back shell 1 to separate the metal back shell 1 and the antenna structure 6. Through the combined effect of the baffle portion 53 and the support plate portion 51, a clearance area can be better provided for the antenna structure 6 to ensure the reliability of signal transmission.

请参阅图3和图4，在一些实施例中，接地部61邻近挡板部53，天线结构6通过一柔性导电片7接地，柔性导电片7的一端贴设在接地部61，柔性导电片7的中部贴设在挡板部53，柔性导电片7的另一端由挡板部53的上端经过后沿金属背壳1的内壁向上贴设；具体而言，柔性导电片7为导电布。通过设置柔性导电片7，使其一端贴设在接地部61，中部贴设在挡板部53，另一端由挡板部53的上端经过后沿金属背壳1的内壁向上贴设，从而使得天线结构6的接地更加稳定。应该注意的是，此处对柔性导电片7的描述只是为清楚描述其贴设位置，并非是在讲柔性导电片7的贴设方法，不应以此来限制本发明。Please refer to FIG. 3 and FIG. 4. In some embodiments, the grounding portion 61 is adjacent to the baffle portion 53, and the antenna structure 6 is grounded through a flexible conductive sheet 7. One end of the flexible conductive sheet 7 is attached to the grounding portion 61, the middle of the flexible conductive sheet 7 is attached to the baffle portion 53, and the other end of the flexible conductive sheet 7 passes through the upper end of the baffle portion 53 and then is attached upward along the inner wall of the metal back shell 1; specifically, the flexible conductive sheet 7 is a conductive cloth. By arranging the flexible conductive sheet 7, one end of it is attached to the grounding portion 61, the middle part is attached to the baffle portion 53, and the other end of it passes through the upper end of the baffle portion 53 and then is attached upward along the inner wall of the metal back shell 1, so that the grounding of the antenna structure 6 is more stable. It should be noted that the description of the flexible conductive sheet 7 here is only to clearly describe its attachment position, and is not to talk about the attachment method of the flexible conductive sheet 7, and should not be used to limit the present invention.

请参阅图4，在一些实施例中，转轴结构3和天线结构6均设置在绝缘支架5上，绝缘支架5上形成有若干走线卡位54以供天线结构6的馈线55进行走线，从而可以有效避免馈线55晃动，确保了结构上的可靠性。Please refer to Figure 4. In some embodiments, the hinge structure 3 and the antenna structure 6 are both arranged on the insulating bracket 5. A plurality of routing positions 54 are formed on the insulating bracket 5 for routing the feed line 55 of the antenna structure 6, thereby effectively preventing the feed line 55 from shaking and ensuring the reliability of the structure.

请参阅图3和图4，在一些实施例中，天线结构6的数量为二，沿绝缘转轴盖4的延伸方向间隔设置，两天线结构6之间的间隔距离需要能够保证两者间的隔离度，以避免两天线结构6间的相互影响；通过该设计，能够进一步提升本发明电子设备的信号传输能力。具体而言，两天线结构6的一者为主天线结构，可以进行信号接收和输出，两天线结构6的另一者为副天线结构，只是进行信号的接收；当然，并不以此为限。Please refer to FIG. 3 and FIG. 4. In some embodiments, the number of antenna structures 6 is two, and they are spaced apart along the extension direction of the insulating shaft cover 4. The spacing distance between the two antenna structures 6 needs to be able to ensure the isolation between the two to avoid mutual influence between the two antenna structures 6. Through this design, the signal transmission capability of the electronic device of the present invention can be further improved. Specifically, one of the two antenna structures 6 is a main antenna structure that can receive and output signals, and the other of the two antenna structures 6 is a secondary antenna structure that only receives signals. Of course, this is not limited to this.

请参阅图3，在一些实施例中，转轴结构3的数量为二，两天线结构6设置在两转轴结构3之间，在具体设置时，需要使天线结构6之间以及天线结构6与转轴结构3之间保持一定的间距，以避免对天线结构6的信号传输造成影响。Please refer to Figure 3. In some embodiments, the number of the hinge structures 3 is two, and the two antenna structures 6 are arranged between the two hinge structures 3. During the specific setting, it is necessary to maintain a certain distance between the antenna structures 6 and between the antenna structure 6 and the hinge structure 3 to avoid affecting the signal transmission of the antenna structure 6.

在图1至图4所示的实施例中，绝缘支架5的数量为一，其上设置有两天线结构6和两转轴结构3；具体地，绝缘支架5的底部支撑在金属背壳1的下侧沿11，绝缘支架5的侧部固定结合在金属背壳1的内壁，以便于将绝缘支架5稳固地结合在金属背壳1上，当然并不以此方式为限。其他实施例中，绝缘支架5的数量并不限制为一，比如，两天线结构6可以分别设置在各自对应的绝缘支架5上，转轴结构3根据具体情况可以选择设置在绝缘支架5上，也可以不设置在绝缘支架5上。In the embodiments shown in FIGS. 1 to 4 , the number of insulating brackets 5 is one, and two antenna structures 6 and two rotating shaft structures 3 are arranged thereon; specifically, the bottom of the insulating bracket 5 is supported on the lower side edge 11 of the metal back shell 1, and the side of the insulating bracket 5 is fixedly combined with the inner wall of the metal back shell 1, so as to firmly combine the insulating bracket 5 with the metal back shell 1, but it is certainly not limited to this method. In other embodiments, the number of insulating brackets 5 is not limited to one, for example, the two antenna structures 6 can be respectively arranged on the corresponding insulating brackets 5, and the rotating shaft structure 3 can be selected to be arranged on the insulating bracket 5 or not according to the specific situation.

应该注意的是，本发明中绝缘支架5和天线结构6的具体形式、具体数量以及具体设置方式等均不作限制，只要是能够实现为天线结构6提供净空区并保证其信号传输效果的作用即可。It should be noted that the specific form, specific number and specific arrangement of the insulating bracket 5 and the antenna structure 6 in the present invention are not limited, as long as they can provide a clearance area for the antenna structure 6 and ensure its signal transmission effect.

由上可知，本发明的电子设备具有位于屏幕2的下侧且固定在金属背壳1的内壁的绝缘支架5，天线结构6设置在绝缘支架5上以使其辐射体60与金属背壳1隔开，天线结构6与转轴结构3相间隔，绝缘转轴盖4罩设在转轴结构3、绝缘支架5及天线结构6外侧，进而使得本发明的电子设备可以利用绝缘支架5和绝缘转轴盖4同时为天线结构6创造净空区，从而可以保证本发明的天线结构6在进行可靠信号传输的基础上不会影响窄边框全面屏和全金属等设计。As can be seen from the above, the electronic device of the present invention has an insulating bracket 5 located on the lower side of the screen 2 and fixed to the inner wall of the metal back shell 1, the antenna structure 6 is arranged on the insulating bracket 5 so that its radiator 60 is separated from the metal back shell 1, the antenna structure 6 is spaced apart from the hinge structure 3, and the insulating hinge cover 4 is arranged on the outside of the hinge structure 3, the insulating bracket 5 and the antenna structure 6, so that the electronic device of the present invention can use the insulating bracket 5 and the insulating hinge cover 4 to create a clearance area for the antenna structure 6 at the same time, thereby ensuring that the antenna structure 6 of the present invention will not affect the narrow-frame full-screen and all-metal designs on the basis of reliable signal transmission.

以上所揭露的仅为本发明的较佳实例而已，不能以此来限定本发明之权利范围，因此依本发明权利要求所作的等同变化，均属于本发明所涵盖的范围。The above disclosure is only a preferred embodiment of the present invention, which cannot be used to limit the scope of the present invention. Therefore, equivalent changes made according to the claims of the present invention are all within the scope of the present invention.

Claims (6)

1. The electronic equipment is characterized by comprising a screen main body, wherein the screen main body comprises a metal back shell, a screen, a rotating shaft structure, an insulating rotating shaft cover, an insulating support and an antenna structure, the screen is accommodated in the metal back shell, the rotating shaft structure and the insulating support are positioned on the lower side of the screen, the insulating support is fixedly arranged on the inner wall of the metal back shell, the antenna structure comprises a radiator and a grounding part, the antenna structure is arranged on the insulating support so as to separate the radiator from the metal back shell, the antenna structure is spaced from the rotating shaft structure, and the insulating rotating shaft cover is covered on the outer sides of the rotating shaft structure, the insulating support and the antenna structure;

the insulation support comprises a support plate part which is arranged at an angle with the screen, the support plate part is positioned on the upper side of the lower side edge of the metal back shell and outwards exceeds the lower side edge of the metal back shell, and the antenna structure is attached to one side of the support plate part opposite to the lower side edge of the metal back shell;

the insulating bracket further comprises a baffle plate part which extends upwards from one side of the supporting plate part, which is close to the metal back shell, so as to separate the metal back shell and the antenna structure;

The grounding part is adjacent to the baffle part, the antenna structure is grounded through a flexible conductive sheet, one end of the flexible conductive sheet is attached to the grounding part, the middle part of the flexible conductive sheet is attached to the baffle part, and the other end of the flexible conductive sheet is attached upwards from the upper end of the baffle part to the inner wall of the metal back shell after passing through.

2. The electronic device of claim 1, wherein the antenna structure further comprises a circuit board, the radiator and the ground plane are attached to the circuit board, the antenna structure further comprises directional retaining walls attached to the circuit board and respectively arranged at two opposite sides of the radiator at intervals, and the ground is connected between the directional retaining walls.

3. The electronic device of claim 2, wherein the directional retaining walls are located on opposite sides of the radiator along the extending direction of the insulating pivot cover, respectively.

4. The electronic device according to claim 1, wherein a bottom portion of the support plate portion is provided with a plurality of fins.

5. The electronic device of claim 1, wherein the rotating shaft structure and the antenna structure are both disposed on the insulating support, and a plurality of wiring positions are formed on the insulating support for wiring of the feeder line of the antenna structure.

6. The electronic device of claim 1, wherein the number of antenna structures is two, spaced apart along the direction of extension of the insulating pivot cover.