The present invention relates to an electronic device and a pivotable assembly, and more particularly to an electronic device having an antenna assembly and a pivotable assembly capable of adjusting the position of an antenna assembly.
With the development of communication technologies, the current up-to-date mobile communication technology has developed from the Fourth-Generation (4G) mobile communication technology to the Fifth-Generation (5G) mobile communication technology. 5G features a high data transmission rate, reduced latency, energy saving abilities, low costs, a high system capacity and large-scale device connectivity, and thus 5G in the future is inevitably the technology employed by electronic devices (for example, rugged laptop computers or gaming laptop computers).
With respect to a conventional laptop computer, a 4G antenna is disposed on a host part. Although a screen part of a laptop computer is located within a signal transmission/reception range of the 4G antenna, due to properties of a strong penetration ability of 4G signals and a wide signal transmission/reception range of 4G signals, the influence that the screen part of a laptop computer has on signal transmission/reception of the 4G antenna is minimal. However, due to properties of a weak penetration ability of 5G signals and a small signal transmission/reception range of 5G antenna, when a 5G antenna and a 4G antenna are disposed on a same position under the configuration of a current laptop computer, the screen part of the laptop computer blocks signals in a main signal transmission/reception direction of the 5G antenna, hence significantly degrading the signal transmission/reception efficiency of the 5G antenna. Therefore, researchers and developers of the pertinent field are currently trying to solve the foregoing issue.
The present invention provides an electronic device and a pivotable assembly for solving the issue of the prior art, in which a screen part of a conventional laptop computer blocks signals in a main signal transmission/reception direction of a 5G antenna.
An electronic device disclosed by one embodiment of the present invention includes a casing, a first antenna assembly, a second antenna assembly and a third antenna assembly. At least one of the first antenna assembly, the second antenna assembly and the third antenna assembly is rotatably disposed on the casing, and the rest are fixed at the casing.
A pivotable assembly disclosed by another embodiment of the present invention is for mounting an antenna assembly, and includes an assembly member, a rotating member and an antenna mounting plate. The rotating member is pivotally disposed at the assembly member, and is rotatable along an axis of rotation relative to the assembly member. The antenna mounting plate is disposed at the rotating member, and has a mounting surface that is back facing the rotating member and for mounting the antenna assembly. The axis of rotation is parallel to a normal line of the mounting surface of the antenna mounting plate.
According to the electronic device and the pivotable assembly disclosed by the embodiments above, an angle of a main signal transmission/reception surface of the antenna assembly is adjustable by means of the antenna assembly rotatable relative to the casing, so that it is ensured that no element blocking signals is present on the main signal transmission/reception surface of the antenna assembly, thus maintaining signal transmission/reception performance of the antenna assembly.
The description associated with the contents of the present invention given above and the description of the embodiments below are examples for explaining principles of the present invention, and provide further interpretations for the claims of the present invention.
Refer to
In this embodiment, an electronic device 1 is, for example, a rugged laptop computer or a gaming laptop computer. The electronic device 1 includes a casing 10, a first antenna assembly 20, a second antenna assembly 30 and a third antenna assembly 40. Further, in this embodiment or another embodiment, the electronic device 1 may further include a pivotable assembly 50.
The casing 10 includes a host 11 and a display 12. The display 12 is pivotally disposed at the host 11, and is rotatable around an axis of rotation A1 relative to the host 11. The host 11 has a first side edge 111 and two second side edges 112 and 113. The first side edge 111 is located on one side of the host 11 away from the axis of rotation A1. The two second side edges 112 and 113 face each other, and are between the first side edge 111 and the axis of rotation A1.
The first antenna assembly 20, the second antenna assembly 30 and the third antenna assembly 40 are, for example, 5G antenna assemblies. The first antenna assembly 20, the second antenna assembly 30 and the third antenna assembly 40 are disposed, for example, in the host 11. Although the first antenna assembly 20 and the second antenna assembly 30 in
A center line L of the first side edge 111 of the host 11 passes through a center C of the first side edge 111 of the host 11, and is perpendicular to the axis of rotation A1. The first antenna assembly 20 and the second antenna assembly 30 are symmetrically configured relative to the center line L of the first side edge 111 of the host 11. The first antenna assembly 20 and the second antenna assembly 30 are fixed on an upper cover 114 of the host 11, and are not pivotally rotatable relative to the host 11.
The third antenna assembly 40 is pivotally located on the second side edge 112 of the host 11 by means of the pivotable assembly 50. In one embodiment, the third antenna assembly 40 is disposed on a position on a center line (not shown) between the first side edge 111 and the axis of rotation A1. In one embodiment, the third antenna assembly 40 is disposed on a position near the axis of rotation A1 and between the first side edge 111 and the axis of rotation A1, thereby reducing mutual influences of the first antenna assembly 20, the second antenna assembly 30 and the third antenna assembly 40 and increasing the signal transmission/reception range. More specifically, the pivotable assembly 50 includes an assembly member 51, a rotating member 52, a pivotal member 53 and an antenna mounting plate 54. The assembly member 51 is fixed at the host 11 by, for example, a screw, and is fixed on, for example, the upper cover 114 of the host 11. The assembly member 51 has two first pivotal holes 511 and 512, and the first pivotal holes 511 and 512 are kept at different distances from one of the sides of the assembly member 51. In other words, when the assembly member 51 is fixed on the second side edge 112 of the host 11, the first pivotal hole 512 is closer to the axis of rotation A1 than the first pivotal hole 511. The rotating member 52 has a second pivotal hole 521. The pivotal member 53 is, for example, a rivet. The pivotal member 53 passes through the first pivotal hole 511 and the second pivotal hole 521, such that the rotating member 52 can be pivotally connected to the first pivotal hole 511 through the pivotal member 53, allowing the rotating member 52 to be rotatable by an axis of rotation A2 relative to the assembly member 51. The antenna mounting plate 54 is disposed at the rotating member 52 by means of such as locking. The antenna mounting plate 54 has a mounting surface 541, which is back facing the rotating member 52, and the axis of rotation A2 is parallel to a normal line N1 of the mounting surface 541 of the antenna mounting plate 54. The third antenna assembly 40 is mounted on the mounting surface 541 of the antenna mounting plate 54. The antenna mounting plate 54 further includes a power connector 542, which is for coupling with a power line (not shown) in order to provide power needed by the third antenna assembly 40.
In this embodiment, each of the first antenna assembly 20, the second antenna assembly 30 and the third antenna assembly 40 includes a main signal transmission/reception surface, and all main signal transmission/reception regions of the first antenna assembly 20, the second antenna assembly 30 and the third antenna assembly 40 are located on the main signal transmission/reception surfaces.
Take the third antenna assembly 40 for example. Refer to
In this embodiment, the first antenna assembly 20 and the second antenna assembly 30 are located on the first side edge 111 of the host 11, each of the main signal transmission/reception surfaces S1 and S2 is kept at an acute angle from the axis of rotation A1, and the main signal transmission/reception surfaces S1 and S2 of the first antenna assembly 20 and the second antenna assembly 30 do not pass through the display 12. Thus, signals in the main signal transmission/reception regions of the first antenna assembly 20 and the second antenna assembly 30 are not blocked by the display 12.
From the perspective of
More specifically, refer to
In this embodiment, the operation of adjusting the angle of the main signal transmission/reception surface S3 of the third antenna assembly 40 by means of the rotating member 52 is before shipping out of the factory, for the purpose of allowing the first antenna assembly 20, the second antenna assembly 30 and the third antenna assembly 40 to cooperatively cover the most ideal signal transmission/reception range. Once the angle of the main signal transmission/reception surface S3 of the third antenna assembly 40 is optimized, the strength of the pivotal member 53 (rivet) can be reinforced to prohibit the rotating member 52 from rotating relative to the assembly member 51, so as to maintain the angle of the main signal transmission/reception surface S3 of the third antenna assembly 40, hence maintaining the most ideal signal transmission/reception range. As such, the signal transmission/reception efficiency of antennas of the electronic device 1 shipped to a user is optimal.
In the present invention, when the angle of the main signal transmission/reception surface S3 of the third antenna assembly 40 has been optimized, whether or not the rotating member 52 is prohibited from rotating relative to the assembly member 51 is not limited. In other embodiments, when the angle of the main signal transmission/reception surface S3 of the third antenna assembly 40 has been optimized, the rotating member can still rotate relative to the assembly member, and the rotating member can be rotated by a manual or electrical means. When the rotating member is in an electrical configuration, the rotating member can be rotated by means of such as wireless control.
In this embodiment, the second side edge 113 of the host 11 is, for example but not limited, not provided with any antenna assembly. In other embodiments, the electronic device can further include another third antenna assembly 40 and another pivotable assembly 50; this third antenna assembly 40 can be rotatably disposed on the second side edge 113 of the host 11 by means of the pivotable assembly 50 in order to cover a more ideal transmission/reception range. Under such configuration, if the first pivotal hole 512 is still kept closer to the axis of rotation A1 than the first pivotal hole 511 after the assembly member 51 of the pivotable assembly 50 is installed to the host 11, the rotating member 52 is still pivotally disposed at the assembly member 51 through the first pivotal hole 511. On the other hand, if the first pivotal hole 511 is kept closer to the axis of rotation A1 than the first pivotal hole 512 after the assembly member 51 of the pivotable assembly 50 is installed to the host 11, the rotating member 52 is pivotally disposed at the assembly member 51 through the first pivotal hole 512. It is known that, the rotating member 52 can selectively be pivotally connected by different first pivotal holes 511 and 512, and can thus rotate by different axes of rotation relative to the assembly member 51. In one embodiment, the third antenna assembly 40 is capable of quickly adjusting an antenna to any direction by means of the rotating design to achieve an ideal coverage, further achieving designed effects within a fastest time by a least number of antennas. In this embodiment, the third antenna assembly 40 is rotatable in the host 11 through the pivotable assembly 50. In this embodiment, as shown in
In this embodiment, the number of first pivotal holes 511 and 512 of the assembly 51 is not limited to two. In other embodiments, the assembly member can have more pivotal holes or merely has one first pivotal hole.
In this embodiment, for example but not limited to, the antenna assembly on the first side edge 111 of the host 11 is non-rotatable, and the antenna assembly located on the second side edge 112 of the host 11 is rotatable. In other embodiments, the two antenna assemblies located on the first side edge 111 of the host 11 can be configured as being rotatable, and the antenna located on the second side edge 112 of the host 11 can be configured as being non-rotatable. Alternatively, one of the two antenna assemblies located on the first side edge 111 of the host 11 is configured as being rotatable, the other of the two antenna assemblies located on the first side edge 111 of the host 11 is configured as being non-rotatable, and the antenna located on the second side edge 112 of the host 11 is configured as being rotatable or non-rotatable.
Further, the numbers of the antenna assemblies located on the first side edge 111 and the second side edge 112 of the host 11 are not to be construed as limitations of the present invention. In other embodiments, only one antenna assembly can be provided on the first side edge 111 of the host 11, and multiple antenna assemblies can be provided on the second side edge 112 of the host 11.
Next, refer to
In this embodiment, an electronic device 1a is similar to the electronic device 1 in
In this embodiment, an assembly member 51a and a rotating member 52a of a pivotable assembly 50a are of a heat conductive material, and the pivotable assembly 50a further includes a heat dissipating element 55a. The heat dissipating element 55a is stacked on the rotating member 52a and is disposed between a third antenna assembly 40a and the rotating member 52a, and the third antenna 40a is thermally coupled to the rotating member 52a through the heat dissipating member 55a. As such, heat generated by the third antenna assembly 40a can be transferred to the rotating member 52a and the assembly member 51a to help heat dissipation.
In this embodiment, with the heat dissipating member 55a stacked on the rotating member 52a, when the rotating member 52a is rotated to adjust the angle of the third antenna assembly 40a, the heat dissipating member 55a is driven to rotate simultaneously, so as to maintain heat dissipation effects of the heat dissipating member 55a.
Next, refer to
In this embodiment, an electronic device 1b is similar to the electronic device 1 in
In this embodiment, a pivotable assembly 50b further includes a fixing member 56b, which is, for example, a pin. Further, a rotating member 52b further has a through hole 522b, and an assembly member 51b has a plurality of insertion holes 513b. The insertion holes 513b of the assembly member 51b are arranged along an arc regarding a first pivotal hole 511b as a center. After the angle of a third antenna assembly 40b has been adjusted, the fixing member 56b can be passed through the through hole 522b of the rotating member 52b and inserted into one of the insertion holes 513b of the assembly member 51b, so as to maintain the angle of the third antenna assembly 40b. However, as long as the angle of the third antenna assembly 40b can be maintained, the fixing member 56b is not limited to being a pin. In other embodiments, the fixing member 56b can be a screw, and the insertion holes of the assembly member are screw holes.
In the present invention, given that the third antenna assembly can be rotatable relative to the host, the third antenna assembly is not limited to being pivotally rotatable relative to the host by means of the pivotable assembly. In other embodiment, the third antenna assembly can be directly pivotally disposed at the host, or be pivotally rotatable relative to the host by means of other types of pivotable assemblies.
Moreover, these antenna assemblies are not limited to being disposed on the upper cover of the host. In other embodiments, these antenna assemblies can be disposed on a lower cover of the host, or on a housing of the display. Further, these antenna assemblies are not limited to being disposed on side edges of the host or the display. In other embodiments, these antenna assemblies can be disposed on any parts of the host or the display according to actual requirements.
According to the electronic device and the pivotable assembly disclosed by the embodiments above, an angle of a main signal transmission/reception surface of the antenna assembly is adjustable by means of the antenna assembly rotatable relative to the casing, so that it is ensured that no element blocking signals is present on the main signal transmission/reception surface of the antenna assembly, thus maintaining signal transmission/reception performance of the antenna assembly.
While the invention has been described by way of example and in terms of the preferred embodiments, it is to be understood that the invention is not limited thereto. Modifications and similar arrangements can be made by a person skilled in the art without departing from the spirit and scope of the present invention. Therefore, the scope of the claims of the present invention should be accorded with the appended claims of the present invention.
This application claims priority from U.S. Patent Application Ser. No. 63/044,206, filed on Jun. 25, 2020, the entire disclosure of which is hereby incorporated by reference.
Number | Date | Country | |
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63044206 | Jun 2020 | US |