CN210692740U - Electronic device - Google Patents

Abstract

The utility model provides an electronic equipment. An electronic device includes a non-metallic back cover, an antenna device. The antenna device is arranged in the nonmetal rear cover and arranged at the top of the nonmetal rear cover. The antenna device comprises a first antenna for receiving and transmitting antenna signals of a first frequency band and a second antenna for receiving and transmitting antenna signals of a second frequency band; the second frequency band is greater than the first frequency band, and the second antenna includes inboard antenna and outside antenna, and the inboard antenna is walked in the medial surface of lid behind the nonmetal, and the outside antenna is walked on the lateral surface of lid behind the nonmetal, and inboard antenna and outside antenna electricity are connected. In the electronic equipment, the available clearance area of the antenna device is increased as much as possible in a limited space, and meanwhile, the antenna device can realize wide-frequency coverage.

Description

Electronic device

Technical Field

The utility model relates to an electrical apparatus field, in particular to electronic equipment.

Background

At present, with the gradual popularization of the 5G technology, all manufacturers continuously release their own 5G products. The antennas of 5G products generally include 4G antennas, GPS, wifi antennas, and 5G antennas. Therefore, the coexistence of the 5G antenna and the 4G antenna, the GPS and the wifi antenna in the 5G product inevitably causes the problem of insufficient antenna clearance. If the clearance of the 5G antenna is not enough, the antenna signal problem of the 5G product is influenced.

SUMMERY OF THE UTILITY MODEL

The purpose of this disclosure is to provide an antenna arrangement scheme that can ensure that antenna headroom is sufficient to ensure antenna signal quality of electronic devices.

An electronic device, comprising:

a non-metallic rear cover;

the antenna device is arranged in the non-metal rear cover and arranged at the top of the non-metal rear cover, and comprises a first antenna and a second antenna, wherein the first antenna is used for receiving and transmitting antenna signals of a first frequency band, and the second antenna is used for receiving and transmitting antenna signals of a second frequency band; the second antenna comprises an inner antenna and an outer antenna, the inner antenna is arranged on the inner side surface of the non-metal rear cover in a wiring mode, the outer antenna is arranged on the outer side surface of the non-metal rear cover in a wiring mode, and the inner antenna is electrically connected with the outer antenna.

In the electronic device, the first antenna may operate in a state of covering a first frequency band, and the second antenna may operate in a state of covering a second frequency band. Thus, the first antenna may be a 4G antenna and the second antenna may be a 5G antenna. Considering the structural strength of the electronic equipment and the clearance balance of the antenna device, the second antenna is arranged by simultaneously routing the inner side and the outer wall of the non-metal rear cover, so that an inner side antenna and an outer side antenna for covering 5G frequency are formed, and the routing area of the second antenna is reduced. In the electronic equipment, the antenna device is arranged in a limited space between the front camera and the rear camera, so that the available clearance area is increased as much as possible, meanwhile, the antenna device can realize broadband coverage, realize the coverage of 4G frequency bands and 5G frequency bands, and ensure higher antenna signal quality.

Drawings

FIG. 1 is a schematic structural diagram of an electronic device according to an embodiment;

FIG. 2 is a perspective view of a non-metallic back cover of the electronic device shown in FIG. 1;

fig. 3 is a perspective view of another angle of the non-metallic back cover according to fig. 2.

The reference numerals are explained below:

11. a non-metallic rear cover; 13. a cover plate; 131. a hollow-out section; 132. a metal via; 14. a frame; 141. a first side frame; 142. a second side frame; 143. a third side frame; 144. a fourth side frame;

12. an antenna device; 121. a first antenna; 122. a second antenna; 1221. 1241, 1251, 1261, inner antenna; 1222. 1242, 1252, 1262, outside antenna; 123. a third antenna; 124. a fourth antenna; 125. a fifth antenna; 126. a sixth antenna; 127. a seventh antenna; 128. an eighth antenna; 129. a ninth antenna; 1291. a connecting portion;

18. a front camera; 19. a rear camera; 20. a battery.

Detailed Description

While the present invention may be susceptible to embodiment in different forms, there is shown in the drawings and will herein be described in detail only some specific embodiments thereof with the understanding that the present description is to be considered as an exemplification of the principles of the disclosure and is not intended to limit the invention to that as illustrated herein.

Thus, a feature indicated in this specification will serve to explain one of the features of an embodiment of the disclosure, and not to imply that every embodiment of the disclosure must have the described feature. Further, it should be noted that this specification describes many features. Although some features may be combined to show a possible system design, these features may also be used in other combinations not explicitly described. Thus, the combinations illustrated are not intended to be limiting unless otherwise specified.

Example embodiments will now be described more fully with reference to the accompanying drawings. Example embodiments may, however, be embodied in many different forms and should not be construed as limited to the examples set forth herein; rather, these example embodiments are provided so that this disclosure will be thorough and complete, and will fully convey the concept of example embodiments to those skilled in the art. The drawings are merely schematic illustrations of the present disclosure and are not necessarily drawn to scale. The same reference numerals in the drawings denote the same or similar parts, and thus their repetitive description will be omitted.

Furthermore, the described features, structures, or characteristics may be combined in any suitable manner in one or more example embodiments. In the following description, numerous specific details are provided to give a thorough understanding of example embodiments of the disclosure. One skilled in the relevant art will recognize, however, that the subject matter of the present disclosure can be practiced without one or more of the specific details, or with other methods, components, steps, and so forth. In other instances, well-known structures, methods, implementations, or operations are not shown or described in detail to avoid obscuring aspects of the disclosure.

Some of the block diagrams shown in the figures are functional entities and do not necessarily correspond to physically or logically separate entities. These functional entities may be implemented in the form of software, or in one or more hardware modules or integrated circuits, or in different networks and/or processor devices and/or microcontroller devices.

The preferred embodiments of the present invention will be further described in detail with reference to the accompanying drawings.

The present disclosure provides an electronic device. The electronic equipment can be intelligent mobile terminal, portable power source, electric automobile, notebook computer, unmanned aerial vehicle, electronic book, electron cigarette, intelligent wearing equipment, robot of sweeping the floor, bluetooth speaker, electric toothbrush and electronic equipment such as chargeable wireless mouse. The specific type of the electronic device is not limited herein as long as the electronic device needs to transmit and receive signals using an antenna. For convenience of description, the device to be charged is described by taking a mobile phone terminal as an example.

The 5G mobile phone mobile terminal always needs to enable a 5G antenna, a 4G antenna, a GPS antenna and a wifi antenna to coexist, the problem that the antenna clearance is not enough is inevitably caused in a limited space, particularly in the mobile terminal of a full-screen, the front double cameras and the rear four cameras are arranged, the devices seriously extrude the arrangement space of the antenna, the antenna clearance is extremely small and is almost zero. The technical scheme provided by the application can effectively solve the problem of the antenna performance of the 5G mobile phone, the flexible circuit board FPC (free Pascal compiler) antenna is respectively arranged on the inner side and the outer side of the plastic rear cover, the conductive ink is directly printed in the mobile phone to manufacture the antenna PDS (PBINTI NG Direct Structure) process antenna, meanwhile, the environment treatment is carried out on the metal devices around the antenna, and the antenna design mode that the 4G antenna and the 5G antenna coexist in a limited space is realized

Referring to fig. 1, the electronic device may include a display (not shown), a non-metal rear cover 11 and an antenna device 12. It should be noted that the electronic device shown in fig. 1 is not limited to the above, and may also include other devices, such as a front camera, a rear camera, and the like.

The non-metal rear cover 11 directly has a receiving space for receiving a display (not shown), a battery 20, a printed circuit board (not shown), and the like.

The non-metal rear cover 11 includes a cover plate 13 and a frame 14 disposed around the cover plate 13. The display screen is arranged on one side of the frame 14, and the cover plate 13 is arranged on the other side of the frame 14. The display screen, the cover plate 13 and the frame 14 together enclose a receiving space for receiving the battery 20, the antenna device 12 and the circuit board.

The cover plate 13 and the frame 14 may be of a separate structure or an integrated structure. Specifically, the non-metal rear cover 11 and the frame 14 may be integrally formed to form a finished non-metal rear cover 11 structure. The non-metal rear cover 11 may be a plastic rear cover formed by injection molding or a ceramic rear cover formed by injection molding.

The cover plate 13 is disposed on one side of the frame 14, and the cover plate 13 is used for carrying the antenna device 12, the circuit board, and the like. The cover 13 is provided with a hollow portion 131, and the hollow portion 131 may be used to mount the battery 20, the camera, and the like. Moreover, for the position where the cover plate 13 does not need to provide a bearing function, the cover plate 13 may also be provided with a hollow portion 131, and the hollow portion 131 may be used to reduce the occupied space of the non-metal rear cover 11 in the thickness direction of the mobile phone.

The frame 14 includes a first side frame 141, a second side frame 142, a third side frame 143, and a fourth side frame 144 connected end to end in sequence. The first side frame 141 and the third side frame 143 correspond to the bottom end and the top end of the cover plate 13, respectively. The second side frame 142 and the fourth side frame 144 are disposed on opposite sides of the first side frame 141 and the third side frame 143. The first side frame 141 and the third side frame 143 correspond to upper and lower ends of the cover plate 13, respectively, and the first antenna is disposed near the third side frame 143.

The electronic device 10 further includes a plurality of front-facing cameras and a plurality of rear-facing cameras. The top of lid behind the nonmetal is located to a plurality of leading cameras and a plurality of rearmounted camera.

The front cameras are arranged at the intersection of the third side frame and the second side frame and are arranged in parallel along the extending direction of the third side frame, and the rear cameras are arranged close to the fourth side frame and are arranged in parallel along the extending direction of the fourth side frame.

The antenna device 12 is provided in the non-metallic back cover 11. The antenna device 12 is disposed at the bottom of the non-metallic back cover 11. The antenna device 12 includes a first antenna 121 for transceiving antenna signals of a first frequency band and a second antenna 122 for transceiving antenna signals of a second frequency band. Specifically, in the present embodiment, the first antenna 121 is a 4G antenna. The second antenna 122 is a 5G antenna.

The first antenna 121 is disposed inside the non-metal rear cover 11 and attached to an inner sidewall of the third side frame 143.

The antenna arrangement 12 further comprises a tuning switch. Using the tuning switch, the transmitter can be impedance matched to the antenna, thereby maximizing the radiated power of the antenna at any frequency. It is understood that the tuning switch may be a switching device formed by electrically connecting electronic components such as a capacitor, an inductor, a resistor, and the like. The tuning switch can not only change the on-off state of the circuit, but also change the self-lifting capacitance value, resistance value and the like to adjust the equivalent electrical length of the antenna radiator so as to adjust the frequency of the electromagnetic wave signal generated by the antenna according to the excitation signal.

The first antenna 121 is located inside the non-metallic back cover 11. The first antenna 121 is a metal sheet, and a portion of the first antenna 121 is attached to the inner wall of the third bezel 143, and the other portion is attached to the inner side of the cover 13. The first antenna 121 extends along the third side frame 143 toward the second side frame 142, extends to a corner, and extends a distance above the second side frame 142.

Specifically, the first frequency band is 703MHz to 960 MHz. Thus, the first antenna 121 may achieve coverage in the low and medium frequency bands 703MHz to 960 MHz. The low frequency bandwidth is also narrow due to the small headroom of the first antenna 121. The first antenna 121 can switch the state of low frequency 703MHZ-960MHZ through SP4T radio frequency switch.

Referring to fig. 2 and 3, the second antenna 122 may be a dual Inverted-F IFA (Inverted-Fantenna) antenna. The second antenna 122 is an antenna made by directly printing conductive ink inside the mobile phone, that is, a pds (pdi NGDirect structure) process antenna. The second antenna 122 includes an inner antenna 1221 and an outer antenna 1222. The inner antenna 1221 is routed on the inner side of the non-metal rear cover 11, the outer antenna 1222 is routed on the outer side of the non-metal rear cover 11, and the inner antenna 1221 is electrically connected to the outer antenna 1222. The cover plate 13 is provided with a metal via 132, and the inner antenna 1221 and the outer antenna 1222 are electrically connected through the metal via 132. The second antenna 122 cannot be printed on the frame 13 because of the key positions required on the frame 13. Therefore, the inner antenna 1221 and the outer antenna 1222 may be printed on the inner and outer surfaces of the cover 13.

The inner antenna 1221 is disposed opposite the outer antenna 1222. The inner antenna 1221 is provided on the inner surface of the cover 13 and the inner surface of the frame 14. The outer antenna 1222 is provided on the outer surface of the cover plate 13 and the outer surface of the frame 14. It is understood that the inner antenna 1221 and the outer antenna 1222 may be formed on the inner and outer sides of the non-metal rear cover 11 by a laser direct forming technique or a printing direct forming technique.

The second antenna 122 is disposed proximate the second bezel 142. The inner antenna 1221 is disposed opposite the outer antenna 1222. The cover 13 is provided with a metal via 132, and the inner antenna 1221 and the outer antenna 1222 are electrically connected by the metal via 132.

Specifically, in the present embodiment, the second antenna 122 is electrically connected to the second tuning switch, and the different medium-high frequency states of the second antenna 122 are switched by the open/close state of the second tuning switch.

When the second tuning switch is turned off, the inductance of the ground point of the second tuning switch is short-circuited, which is equivalent to that the second antenna 123 is directly grounded, and is equivalent to that the length of the second antenna 122 is cut short, and at this time, the two inverted-F antenna branches of the third antenna 123 respectively operate in the states of 3.4Ghz-3.6Ghz and 4.8Ghz-4.9 Ghz. When the second tuning switch is turned off, the second tuning switch is connected with a sense ground in parallel, and the inverted-F antenna branch close to the second tuning switch works in a 2515Mhz-2675Mhz state.

Thus, the second frequency band includes 2515MHz-2675MHz, 3.4GHz-3.6GHz, 4.8GHz-4.9 GHz. The second antenna 122 can realize the coverage of three frequency bands of 2515Mhz-2675Mhz, 3.4Ghz-3.6Ghz and 4.8Ghz-4.9Ghz under the two states of switch closing and switch opening.

In other embodiments, the second tuning switch may be omitted, thereby reducing the cost of the antenna device 12.

The antenna arrangement 12 further comprises a third antenna 123. The third antenna 123 is used for transceiving antenna signals of a third frequency band, and the third antenna 123 is disposed along the fourth bezel 144.

The third antenna 123 may be a double Inverted-F IFA (Inverted-Fantenna) antenna. The third antenna 123 has a feeding point and a grounding point. The third antenna 123 forms two inverted F antennas by two end branches.

The third antenna 123 has a small volume and is easily impedance-matched. The third antenna 123 is in the form of a flexible circuit board fpc (freeepascacal compiler) antenna, and is attached to the inside of the non-metal rear cover 11. Specifically, a part of the third antenna 123 is attached to the inner sidewall of the second side frame 142, and a part thereof is attached to the cover 13.

Referring to fig. 2 and 3, the antenna device 12 further includes a fourth antenna 124 for transceiving frequency band signals of the positioning system. The fourth antenna 124 extends along the fourth frame 144. It is understood that the fourth antenna 124 may be a GPS positioning antenna, and is used for transceiving GPS positioning frequency band signals to realize GPS positioning.

The fourth antenna 124 may include an inner antenna 1241 and an outer antenna 1242. The inner antenna 1241 and the outer antenna 1242 are electrically connected through the metal via 132.

The antenna arrangement 12 further comprises a fifth antenna 125 for transceiving antenna signals of a fifth frequency band. The fifth antenna 125 extends along the fourth side frame 144 and is disposed in parallel with the fourth antenna 124. The fifth antenna 125 is located above the fourth antenna 124, closer to the third bezel 123.

The fifth antenna 125 may include an inner antenna 1251 and an outer antenna 1252. The inner antenna 1251 and the outer antenna 1252 are electrically connected by the metal via 132. The fifth frequency band may comprise 1710MHZ-2690 MHZ. Thus, the fifth antenna 125 may implement an antenna design of 1710Mhz-2690Mhz, which is a medium-high frequency.

In other embodiments, the antenna apparatus 12 may further include a fifth tuning switch. The antenna performance of the fifth antenna 125 may be improved by the fifth tuning switch.

The antenna arrangement 12 further comprises a sixth antenna 126 for transceiving antenna signals in a sixth frequency band. The sixth antenna 126 extends along the fourth side frame 144, and is disposed in parallel with the fourth antenna 124 and the fifth antenna 125.

Specifically, the sixth frequency band may include 3.4GHZ-3.6GHZ, 4.8GHZ-4.9 GHZ.

In other embodiments, the antenna apparatus 12 may further include a sixth tuning switch. The antenna performance of the sixth antenna 126 may be improved by the sixth tuning switch.

The antenna arrangement 12 further comprises a seventh antenna 127 for transceiving wireless fidelity signals of the wireless local area network. The seventh antenna 127 is provided at the intersection of the fourth side frame 144 and the third side frame 143.

In other embodiments, the antenna apparatus 12 may further include a seventh tuning switch. The antenna performance of the seventh antenna 127 may be improved by the seventh tuning switch.

The antenna device 12 further comprises an eighth antenna 128 for transceiving wireless fidelity signals of the wireless local area network and frequency band signals of the positioning system. The eighth antenna 128 extends along the third side frame 143 toward the fourth side frame 144, extends to a corner, and extends a distance above the fourth side frame 144. And the eighth antenna 128 is disposed in parallel with the first antenna 121.

In other embodiments, the antenna apparatus 12 may further include an eighth tuning switch. The antenna performance of the eighth antenna 128 may be improved by the eighth tuning switch.

Referring to fig. 2, the antenna device 12 further includes a ninth antenna 129. The ninth antenna 129 is provided on the rear side surface of the cover plate 13. The ninth antenna 129 is disposed on the cover 13, and the ninth antenna 129 is disposed in the middle of the cover 13. The ninth antenna 129 is a metal plate. The metal sheet is disposed on the outer side surface of the cover plate 13, and the ninth antenna 129 is provided with a connecting portion 1291, where the connecting portion 1291 extends from the outer side of the cover plate 13 to the inner side of the cover plate 13 through the hollow portion 131 of the cover plate 13, so as to be electrically connected with the main board and the like on the inner side of the cover plate 13.

Specifically, the ninth antenna 129 is an electromagnetic wave absorption ratio sensor antenna. The ninth antenna 129 is a coil-on-ferrite design.

The electronic device further comprises a plurality of front cameras 18 and a plurality of rear cameras 19. The front cameras 18 and the rear cameras 19 are arranged on the top of the nonmetal rear cover 11. The front cameras 18 are disposed at the intersection of the third side frame 143 and the second side frame 142, and are arranged in parallel along the extending direction of the third side frame 143. The rear cameras 19 are disposed near the fourth frame 144 and arranged in parallel along the extending direction of the fourth frame 144.

It is understood that there may be 1 or more front cameras 18. Specifically, the number of the front cameras is 2. The number of the rear cameras 19 may be 1 or more. Specifically, the number of rear cameras is 4.

In the electronic device, the first antenna 121 may operate in a state of covering a first frequency band, and the second antenna 122 may operate in a state of covering a second frequency band. Accordingly, the first antenna 121 may be a 4G antenna and the second antenna 122 may be a 5G antenna. Considering the structural strength of the electronic device and the clearance balance of the antenna device 12, the second antenna 122 is arranged on the inner side and the outer wall of the non-metal rear cover by routing simultaneously, so as to form an inner antenna and an outer antenna for covering 5G frequency, so as to reduce the routing area of the second antenna 122, solve the problem of extremely small clearance of the antenna device, and ensure the signal quality of the antenna device 12. Therefore, in the electronic device, the available headroom of the antenna device 12 is increased as much as possible in a limited space, and the antenna device can achieve broadband coverage, and achieve coverage of 4G bands and 5G bands.

Moreover, the antenna device 12 is arranged at the top of the nonmetal rear cover, so that the limited space between the front camera and the rear camera is reasonably utilized, the clearance space of the antenna device is ensured, and the signal quality of the 4G frequency band and the 5G frequency band is ensured.

While the present disclosure has been described with reference to several exemplary embodiments, it is understood that the terminology used is intended to be in the nature of words of description and illustration, rather than of limitation. As the present invention may be embodied in several forms without departing from the spirit or essential characteristics thereof, it should also be understood that the above-described embodiments are not limited by any of the details of the foregoing description, but rather should be construed broadly within its spirit and scope as defined in the appended claims, and therefore all changes and modifications that fall within the meets and bounds of the claims, or equivalences of such meets and bounds are therefore intended to be embraced by the appended claims.

Claims (17)

1. An electronic device, comprising:

a non-metallic rear cover;

the antenna device is arranged in the non-metal rear cover and arranged at the top of the non-metal rear cover, and comprises a first antenna and a second antenna, wherein the first antenna is used for receiving and transmitting antenna signals of a first frequency band, and the second antenna is used for receiving and transmitting antenna signals of a second frequency band; the second antenna comprises an inner antenna and an outer antenna, the inner antenna is arranged on the inner side surface of the non-metal rear cover in a wiring mode, the outer antenna is arranged on the outer side surface of the non-metal rear cover in a wiring mode, and the inner antenna is electrically connected with the outer antenna.

2. The electronic device of claim 1, wherein the non-metal back cover includes a cover plate and a frame disposed around the cover plate, the inner antenna and the outer antenna are disposed opposite to each other, the inner antenna is disposed on an inner side of the cover plate, and the outer antenna is disposed on an outer side of the cover plate.

3. The electronic device of claim 2, wherein the cover plate is provided with a metal via hole, and the inner antenna and the outer antenna are electrically connected through the metal via hole.

4. The electronic device of claim 2, wherein the bezel includes a first side frame, a second side frame, a third side frame, and a fourth side frame connected end to end in sequence, the first side frame and the third side frame correspond to the bottom end and the top end of the cover plate, respectively, the second side frame and the fourth side frame are disposed on opposite sides of the first side frame and the third side frame, the first antenna is partially attached to an inner side wall of the third side frame, and the second antenna is disposed near the second side frame.

5. The electronic device of claim 1, wherein the first frequency band comprises 703MHZ-960 MHZ.

6. The electronic device of claim 1, wherein the second frequency band comprises 2.515GHZ-2.675GHZ, 3.4GHZ-3.6GHZ, and 4.8GHZ-4.9 GHZ.

7. The electronic device of claim 4, wherein the antenna apparatus further comprises a third antenna, the third antenna is configured to transceive antenna signals of a third frequency band, and the third antenna extends along the second side frame and is disposed near the third side frame.

8. The electronic device of claim 7, wherein the third frequency band includes 3.4GHZ-3.6GHZ, 4.8GHZ-4.9 GHZ.

9. The electronic device of claim 4, wherein the antenna device further comprises a fourth antenna for transceiving band signals of a positioning system, the fourth antenna extending along the fourth side frame.

10. The electronic device of claim 9, wherein the antenna apparatus further comprises a fifth antenna for transceiving antenna signals in a fifth frequency band, the fifth antenna extending along the fourth frame and being disposed in parallel with the fourth antenna.

11. The electronic device of claim 10, wherein the fifth frequency band comprises 1710MHZ-2690 MHZ.

12. The electronic device according to claim 10, wherein the antenna apparatus further includes a sixth antenna for transceiving antenna signals in a sixth frequency band, the sixth antenna extending along the fourth side frame and being disposed in parallel with the fourth antenna and the fifth antenna.

13. The electronic device of claim 12, wherein the sixth frequency band comprises 3.4GHZ-3.6GHZ, 4.8GHZ-4.9 GHZ.

14. The electronic device according to claim 4, wherein the antenna apparatus further comprises a seventh antenna for transceiving wireless fidelity signals of a wireless local area network, the seventh antenna being provided at an intersection of the fourth side frame and the third side frame.

15. The electronic device of claim 4, wherein the antenna apparatus further comprises an eighth antenna for transceiving a wireless fidelity signal of a wireless local area network and a frequency band signal of a positioning system, the eighth antenna extending along the third side frame and being juxtaposed to the first antenna.

16. The electronic device of claim 2, wherein the antenna assembly further comprises a ninth antenna, and the ninth antenna is disposed on the rear side of the cover plate.

17. The electronic device of claim 4, further comprising a front camera and a rear camera disposed on the top of the non-metal rear cover, wherein the front camera is disposed at the intersection of the third side frame and the second side frame and arranged in parallel along the extending direction of the third side frame, and the rear camera is disposed close to the fourth side frame and arranged in parallel along the extending direction of the fourth side frame.

Images