CN208820047U - Antenna module and electronic equipment - Google Patents
Antenna module and electronic equipment Download PDFInfo
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- CN208820047U CN208820047U CN201821753596.2U CN201821753596U CN208820047U CN 208820047 U CN208820047 U CN 208820047U CN 201821753596 U CN201821753596 U CN 201821753596U CN 208820047 U CN208820047 U CN 208820047U
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Abstract
The embodiment of the present application provides a kind of antenna module and electronic equipment, and electronic equipment includes antenna module, and antenna module includes shell and sliding part, and shell includes loading plate and the side that connect with loading plate, and shell is provided with channel, and side is run through in channel;Sliding part is slidably disposed in channel, and is had contraction state relative to shell and stretched out state, and sliding part has opposite first end and the second end;When sliding part is in contraction state, first end is located in channel, the second end is flushed with the edge of the loading plate, when sliding part is in stretching state, first end is located in channel, the second end is located on the outside of channel, and the first gap is formed between first end and loading plate, and the first gap forms slot antenna.The embodiment of the present application can improve the performance of electronic apparatus receiving and transmitting signal.
Description
Technical field
This application involves electronic technology field, in particular to a kind of antenna module and electronic equipment.
Background technique
With the development of communication technology, the electronic equipments such as smart phone are more more and more universal.In the use of electronic equipment
In the process, electronic equipment can transmit signal using its radiator, realize the communication of electronic equipment.
In the related technology, the housing perimeter of electronic equipment is arranged in the radiator of electronic equipment.With the screen of electronic equipment
Accounting is higher and higher, and such as display of the device in electronic equipment can absorb the radiation signal of electronic equipment periphery radiating element,
Influence radiance.
Utility model content
The embodiment of the present application provides a kind of antenna module and electronic equipment, can improve the radiance of electronic equipment.
The embodiment of the present application provides a kind of antenna module, and the antenna module includes:
Shell, the shell include loading plate and the side that connect with the loading plate, and the shell is provided with channel, institute
Channel is stated through the side;And
Sliding part, the sliding part are slidably disposed in the channel, and relative to the shell with contraction-like
State and stretching state, the sliding part have opposite first end and the second end;
When the sliding part is in contraction state, the first end is located in the channel, the second end and institute
The edge for stating loading plate flushes;
When the sliding part is in stretching state, the first end is located in the channel, and the second end is located at
On the outside of the channel;
The first gap is formed between the first end and the loading plate, first gap forms slot antenna.
The embodiment of the present application provides a kind of electronic equipment, and the electronic equipment includes antenna module, and the antenna module is
Antenna module as described above.
In the embodiment of the present application, the slot antenna formed between sliding part and shell, which can increase in electronic equipment, integrally to be received
The intensity of signalling can improve the performance of electronic apparatus receiving and transmitting signal.
Detailed description of the invention
In order to more clearly explain the technical solutions in the embodiments of the present application, make required in being described below to embodiment
Attached drawing is briefly described.
Fig. 1 is the structural schematic diagram of electronic equipment provided by the embodiments of the present application.
Fig. 2 is another structural schematic diagram of electronic equipment provided by the embodiments of the present application.
Fig. 3 is the side view of electronic equipment shown in Fig. 2.
Fig. 4 is the block diagram of electronic equipment provided by the embodiments of the present application.
Fig. 5 is the structural schematic diagram of antenna module in electronic equipment provided by the embodiments of the present application.
Cross-sectional view of the Fig. 6 for antenna module in electronic equipment shown in Fig. 1 in the direction P-P.
Fig. 7 is another structural schematic diagram of antenna module in electronic equipment provided by the embodiments of the present application.
Fig. 8 is the another structural schematic diagram of antenna module in electronic equipment provided by the embodiments of the present application.
Specific embodiment
The electronic equipment 10 of electronic equipment such as Fig. 1 may include radio-circuit.The radio-circuit may include one or more
Antenna.The antenna may include for handling cellular phone signal, which may include for the channel radio within the scope of processing frequency
Letter, the frequency range be the low communication frequency band of such as 700MHz to 960MHz, 1710MHz to 2170MHz midband,
The high frequency band of 2300MHz to 2700MHz or other communication frequencies between 700MHz and 2700MHz or other suitable frequencies
Band (as example).
If desired, equipment 10 may also include for handling the phased of satellite navigation system signals, processing millimetre-wave attenuator
Aerial array, local wireless local area network signal, near-field communication, the channel radio based on the wireless communication of light or other wireless communications
Believe circuit.Wherein, millimetre-wave attenuator is also sometimes referred to as extremely high frequency (EHF) communication, be related to 60GHz or between about 10GHz and
The signal under other frequencies between 400GHz.
Electronic equipment 10 can be calculating equipment such as laptop computer, the computer monitor comprising embedded computer
Device, tablet computer, cellular phone, media player or other hand-helds or portable electronic device, lesser equipment are (such as
Watch equipment, hanging equipment, earphone or receiver device, the equipment being embedded in glasses are worn on the head of user
Other equipment or other Wearables or micromodule equipment), television set, the computer display not comprising embedded computer, trip
(such as wherein the electronic equipment with display is installed in information kiosk or automobile for play equipment, navigation equipment, embedded system
System), realize two or more equipment in these equipment function equipment or other electronic equipments.In showing for Fig. 1
In example property configuration, equipment 10 is portable device, such as cellular phone, media player, tablet computer or other are portable
Calculate equipment.If desired, other configurations can be used for equipment 10.The example of Fig. 1 is merely exemplary.
As shown in Figure 1, equipment 10 may include display such as display 14.Display 14 may be mounted to that shell is such as outer
In shell 12.Sometimes the shell 12 for being referred to alternatively as shell (enclosure or case) can be by plastics, glass, ceramics, fiber composite
Two or more any combination of material, metal (for example, stainless steel, aluminium etc.), other suitable materials or these materials
It is formed.Integral type can be used to configure to be formed for shell 12, and in integral type configuration, some or all shells 12 are processed or molding
At single structure, or it can be used multiple structures (for example, one or more knots of bearing wall and frame structure, formation outer enclosure surface
Structure etc.) it is formed.
Display 14 can in conjunction with conducting capacity touch sensor electrode layer or other touch sensor components (for example,
Resistive touch sensor component, acoustic touch sensor component, the touch sensor components based on power, the touch sensing based on light
Device component etc.) touch-screen display, or can be non-touch-sensitive display.Capacitance touch screen electrode can be by tin indium oxide pad
Or the array of other transparent conducting structures is formed.
Display 14 may include the display pixel array formed by liquid crystal display (LCD) component, electrophoretic display device (EPD) picture
Pixel array, plasma scope pixel array, organic light emitting diode display pixel array, electric moistening display pixel battle array
Column or the display picture element based on other display technologies.
Display overlay such as transparent glass layer, light-passing plastic, sapphire or other transparency dielectric layers can be used
Protect display 14.Opening can be formed in display overlay.For example, opening can be formed in display overlay, to hold
Receive button such as button.Opening can be formed, in display overlay also to accommodate port such as speaker port.It can be in shell
Opening is formed in 12, to form communication port (for example, audio jack port, digital data port etc.).Opening in shell 12
It can also be formed, to be used for acoustic component such as loudspeaker and/or microphone.
As shown in Figure 1, equipment 10 may include sliding part such as sliding part 20.Sliding part 20 may be mounted to that in shell 12.
Sliding part 20 can slide on shell 12, and sliding part 20 slides on shell 12 can form at least two states, including stretch out shape
State and contraction state.When sliding part 20 is in contraction state (alternatively referred to as original state), sliding part 20 is accommodated in shell 12
Inside, sliding part 20 can be configured so that sliding part 20 by the sliding with shell 12 and be accommodated in shell 12.When sliding part 20
In the state of stretching, 20 at least part of sliding part is located at 12 outside of shell, and sliding part 20 can be set by the sliding with shell 12
It sets so that 20 at least part of sliding part extend out to 12 outside of shell.Wherein, Fig. 1 shows sliding part 20 and is in contraction-like
State.
It is shown in FIG. 2 and illustrates the schematic diagram that sliding part 20 is in stretching state.Channel can be set such as in shell 12
Channel 126, for the sliding of sliding part 20.Sliding part 20 can slide in channel 126, and sliding part 20 can be skidded off from channel 126
To shell 12, to form stretching state, as shown in Figure 2.Sliding part 20 can also slide to inside shell 12 from channel 126,
To be accommodated in channel 126.Sliding part 20 can slide out to 12 outside of shell from one end of shell 12 or side.Such as: channel
126 shell 12 one end marginal position run through shell 12 edge.
The side view of electronic equipment shown in Fig. 2 is shown in FIG. 3.Shell 12 may include loading plate 122 and and loading plate
The side 124 of 122 connections.Side 12 is run through in the channel 126 formed on shell 12.
One or more devices in the settable equipment 10 of sliding part 20, such as: it is ambient light sensor, camera, called
Device, flash lamp, infrared light transducer[sensor etc..
It should be noted that sliding part 20 can be shown device 14 and shell 12 when sliding part 20 is in contraction state
It is blocked.
Antenna may be mounted to that in shell 12.In order to avoid working as external object such as other of manpower or user body part
Stop to interrupt communication when one or more antennas, antenna may be mounted to that at multiple positions in shell 12.Sensor can be used
Data such as proximity sensor data, real-time antenna impedance measurement, signal quality measured (such as received signal strength information), with
And other data determine when antenna (or antenna sets) hinders because of the orientation of shell 12, by the hand of user or other external objects
Gear or other environmental factors and be adversely affected.Equipment 10 antenna (or antenna sets) then can be switched in use,
To replace the antenna being detrimentally affected.
Antenna can along the rear portion that the periphery edge of shell 12 is installed in shell 12, be installed on the front of equipment 10
Display cover glass for covering and protecting display 14 or other dielectrics display overlays below, be installed in
Dielectric window lower section or mounted other positions in apparatus 10 on the back side of shell 12 or the edge of shell 12.
It is shown in FIG. 4 and illustrates the schematic diagram for the example components that can be used for equipment 10.As shown in figure 4, equipment 10 can
Circuit 30 is such as stored and processed including control circuit.Storing and processing circuit 30 may include storage device, such as hard drive
Device storage device, nonvolatile memory (e.g., are configured to form the flash memories or other electrically programmables of solid state drive
Read-only memory), volatile memory (e.g., static random access memory or dynamic random access memory) etc..Storage
It can be used for the operation for controlling equipment 10 with the processing circuit in processing circuit 30.The processing circuit can be micro- based on one or more
Processor, microcontroller, digital signal processor, baseband integrated circuit, specific integrated circuit etc..
The software that storage and processing circuit 30 can be used in running equipment 10, such as the Internet browser application program, interconnection
Net voice protocol (VOIP) call application program, email application, media playback application program, operating system function
Energy is equal.In order to support the interaction with external equipment, storage and processing circuit 30 can be used for realizing communication protocol.Can be used storage and
The communication protocol that processing circuit 30 is realized includes Internet protocol, wireless local area network protocol (for example, IEEE 802.11 is assisted
View-sometimes referred to as WiFi), for agreement such as the Bluetooth agreement, cellular phone of other short-range wireless communication links
Agreement, MIMO agreement, antenna diversity agreement, antenna navigation system agreement etc..
Equipment 10 may include imput output circuit 44.Imput output circuit 44 may include input-output equipment 32.It inputs defeated
Equipment 32 can be used for allowing for data to be supplied to equipment 10 and allow data from device 10 being provided to external equipment out.Input
Output equipment 32 may include user interface facilities, data port equipment and other inputoutput units.For example, input and output are set
Standby may include touch screen, the display without touch sensor function, button, control stick, idler wheel, touch tablet, keypad, key
Disk, microphone, camera, loudspeaker, positioning indicator, light source, audio jack and other audio port components, digital data port
Equipment, optical sensor, accelerometer or the other component, the capacitance sensing that can detect movement and the apparatus orientation relative to the earth
Device, proximity sensor (for example, electrical capacitance proximity sensor and/or infrared proximity transducer), magnetic sensor, connector end oral instructions
Sensor or other sensors and other sensors and input and output for being used to determine whether equipment 10 is installed in docking station
Component.
Imput output circuit 44 may include the radio communication circuit 34 for carrying out wireless communication with external equipment.Channel radio
Believe that circuit 34 may include by one or more integrated circuits, power amplifier circuit, low noise input amplifier, passive RF
(RF) the RF transceiver that component, one or more antennas 40, emission lines and other circuits for handling RF wireless signal are formed
Circuit.Wireless signal can also be used light (for example, using infrared communication) to send.
Radio communication circuit 34 may include the radio-frequency transceiver circuitry 90 for handling various radio communication frequency bands.For example,
Circuit 34 may include transceiver circuit 36,38,42 and 46.
Transceiver circuit 36 can for can handle for WiFi (IEEE 802.11) communication 2.4GHz and 5GHz frequency band and
The wireless lan transceiver circuit of the Bluetooth communication band of 2.4GHz can be handled.
Cellular telephone transceiver circuit 38 can be used in circuit 34, for the wireless communication within the scope of processing frequency, the frequency
Rate range be the low communication frequency band of such as 700MHz to 960MHz, the midband of 1710MHz to 2170MHz, 2300MHz extremely
The high frequency band of 2700MHz or other communication bands between 700MHz and 2700MHz or other suitable frequencies are (as showing
Example).Circuit 38 can handle voice data and non-speech data.
Millimeter-wave transceiver circuit 46 can be high frequency (for example, 10GHz to the millimeter-wave frequency of 400GHz or other
Millimeter-wave frequency) it supports to communicate.
Radio communication circuit 34 may include satellite navigation system circuit, such as receive GPS signal under 1575MHz or
Global positioning system (GPS) for handling other satellite location datas (for example, GLONASS signal under 1609MHz) receives
Device circuit 42.Satellite navigation system signals for receiver 42 are received from the satellite group to orbit the earth.
If desired, radio communication circuit 34 may include the circuit for other short ranges and remote wireless link.For example, nothing
Line telecommunication circuit 34 may include for receiving the circuit of TV and radio signal, paging system transceiver, near-field communication (NFC)
Circuit etc..
Any suitable antenna type can be used to be formed for antenna 40 in radio communication circuit 34.For example, antenna 40 can wrap
The antenna with resonant element is included, the antenna is by loop aerial structure, patch-antenna structure, inverted-F antenna structure, slot aerial
Mixing of structure, planar inverted F-antenna structure, helical aerials structure, these designs etc. is formed.If desired, in antenna 40
One or more antennas can be cavity-backed radiator antenna.Different types of antenna can be used for the combination of different frequency band and frequency band.
For example, a type of antenna can be used when forming local wireless antenna, and forming remote wireless link antenna
When another type of antenna can be used.Dedicated antenna can be used for receiving satellite navigation system signals, or if desired, antenna
40 can be configured to receive satellite navigation system signals and the signal for other communication bands (for example, wireless lan signal
Both and/or cellular phone signal).Antenna 40 may include the slot antenna for handling cellular phone signal.
Emission lines path can be used for routing aerial signal in equipment 10.For example, emission lines path can be used for the coupling of structure 40
To transceiver circuit 90.Emission lines in equipment 10 may include coaxial cable path, micro-strip emission lines, strip line emission lines, side
The micro-strip emission lines of edge coupling, the strip line emission lines of edge coupling, the transmitting formed by the combination of the emission lines of these types
Line etc..If desired, filter circuit, switching circuit, impedance matching circuit and other circuits can be plugged in emission lines.
Equipment 10 may include mutiple antennas 40.The antenna can be used together or the antenna in an antenna can be cut
It changes in use, and switching to and not using by other one or more antennas.If desired, control circuit 30 can be used for selecting
Optimal antenna is associated adjustable with a mutiple antennas in antenna 40 to use in real time in apparatus 10 and/or for selecting
Save the best setting of radio-circuit.Antenna tuning is to execute in desired frequency range, to utilize phase by adjustable antenna
Aerial array is controlled to execute wave beam control, and otherwise optimizes antenna performance.Sensor can be coupled in antenna 40, with
The sensing data for adjusting antenna 40 is acquired in real time.
In some configurations, antenna 40 may include slot antenna.In equipment such as handheld device, external object is (such as,
The desktop or other surfaces that the hand or equipment of user is stopped) presence may stop wireless signal such as cellular phone signal.
And the devices such as sliding part 20, display 14 occupy the space of electronic equipment 10, may absorb or interference is not necessarily to signal such as honeycomb
Telephone signal.Accordingly, it may be desirable to which one or more slot antennas are integrated in equipment 10, which may be formed at electricity
Between the inside of sub- equipment such as sliding part 20 and shell 12.Using the arrangement in gap and other antennas, wireless performance can be optimized.
Fig. 5 and Fig. 6 is to show the schematic diagram of antenna module in example electronic device.As shown in Figure 5 and Figure 6, it slides
The setting of part 20 can form gap 402 on shell 12, i.e. sliding part 20 can form the first gap 402 with loading plate 122.Sliding part
Slot antenna configurations can be formed by the first gap 402 between 20 and shell 12.It sliding part 20, shell 12 and is formed in outer
Gap 402 between shell 12 and sliding part 20 constitutes an antenna module 100.
Illustratively, sliding part 20 may be mounted at one end of shell 12.It can be set between sliding part 20 and shell 12
Multiple sliding supports such as sliding support 50.Sliding support 50 can be used for supporting sliding part 20, and sliding support 50 can
For sliding for sliding part 20, sliding part 20 can slide on sliding support 50.
Sliding part 20 may include main body such as main body 220 and side frame such as side frame 240.Side frame 240 can be two, two
Side frame 240 can connect in the outside of main body 220.The second gap can be formed between one of side frame 240 and main body 220
404。
Main body 220 may include first end such as first end 221, the second end such as the second end being reversed
222, third end such as third end 223 and the 4th end such as the 4th end 224.First end 221 and the second end
222 can be reversed, and third end 223 and the 4th end 224 can be reversed, first end 221 and the second end 222
It can be fixedly connected by third end 223 with the 4th end 224.When sliding part 20 is in contraction state, first end 221
In the channel of shell 12 126, the second end 222 is located at the marginal position of shell 12, and the second end 222 can be with loading plate
122 edge flushes.When sliding part 20 is in stretching state, the second end 222 is located at the outside in the channel 126 of shell 12,
First end 221 can be located at the marginal position of shell 12, and first end 221 can also be located in the channel 126 of shell 12.
Illustratively, sliding support 50 can be set between main body 220 and shell 12.Such as sliding support 50 can
It is arranged between main body 220 and loading plate 122.
Sliding part 20 may include such as convex block 225 of convex block 225, and convex block 225 can be one, or two.Convex block
225 may be provided at third end 223 and/or the 4th end 224.One end of convex block 225 is flushed with the end of first end 221,
It protrudes to avoid convex block 225 in the end face of first end 221, and influences the sliding of sliding part 20.Convex block 225 is along first end
221 are less than the distance of first end 221 and the second end 222 towards the length in 222 direction of the second end.The thickness of convex block 225
Less than the thickness of main body 220, convex block 225 and main body 220 are formed with step 226 on one side, step 226 far from shell 12, or
Say the one side of main body 220 far from shell 12.Wherein step 226 can be used for placing the driving device that driving sliding part 20 slides.
Fig. 7 is to show another schematic diagram of antenna module in example electronic device.As shown in fig. 7, electronic equipment 10
It may include driving device such as driving device 70, driving device 70 may be provided on shell 12, and one end of driving device 70 can be put
It sets on step 226, to drive sliding part 20 to slide.Driving device 70 may include motor, gear set etc..
Illustratively, a sliding support 50 can be set between a convex block 225 and shell 12.
Side frame 240 can be one, or two.One side frame 240 can be set on the outside of third end 223, and one
A side frame 240 can be set in 224 outside of the 4th end.Side frame 240 can be located at the marginal position of shell 12, and side frame 240 can
To be flushed with the edge of shell 12.
It should be noted that no matter sliding part 20 is in stretching state or contraction state, first end 221 and shell
12 have lap.And sliding part 20 passes through the support of sliding support 50, and the first gap can be formed between shell 12
402, the first gap 402 can be formed, the first gap 402 can form slot antenna between first end 221 and shell 12.
The slot antenna formed between first end 221 and shell 12 by the first gap 402 can increase spoke in electronic equipment 10
Penetrate signal strength.
Illustratively, one or more grounding points can be set between main body 220 and shell 12.Such as: first end 221
The first grounding point such as the first grounding point 201 is provided between shell 12, the first grounding point 201 can be set in first end
221, the first grounding point 201 also can be set on convex block 225, and the first grounding point 201 also can be set in sliding support 50
On.For first grounding point 201 for being grounded 344, the first grounding point 201 may be coupled to radio communication circuit 34 to be grounded,
First grounding point 201 also can be directly connected on shell 12 to be grounded.Such as: between first end 221 and shell 12
It is provided with the second grounding point such as the second grounding point 202, the second grounding point 202 can be set in first end 221, the second ground connection
Point 202 also can be set on convex block 225, and the second grounding point 202 also can be set on sliding support 50.Second grounding point
202 for being grounded 344, and the second grounding point 202 may be coupled to radio communication circuit 34 to be grounded, the second grounding point 202
Also it can be directly connected on shell 12 to be grounded.
Illustratively, one or more first feeding points 204 can be set between main body 220 and shell 12.Feeding point 204
Can be set on first end 221, the first feeding point 204 can be set the first grounding point 201 and the second grounding point 202 it
Between.For connecting feed 342, feed 342 can be set on radio communication circuit 42 first feeding point 204.To gap
Antenna can realize the transmitting-receiving of signal by feed 342.
Fig. 8 is to show the another schematic diagram of antenna module in example electronic device.It should be noted that sliding part 20
The mode that antenna is formed between shell 12 is not limited to slot antenna.Referring to Fig. 8, being provided with other antennas on sliding part 20
Such as antenna 404.Antenna 404 can be one or more, and an antenna 404 can be arranged on a side frame 240.Side frame
The second feeding point 205 can be set on 240, the second feeding point 205 is for connecting feed 342, so that antenna 404 can pass through feedback
342 receiving and transmitting signal of source.It should be noted that slot antenna can with antenna 404 share the second feeding point 205, slot antenna with
342 receiving and transmitting signal of feed that antenna 404 can be connected by the second feeding point 205.
Illustratively, when slot antenna and antenna 404 share the second feeding point 205, slot antenna can pass through one
Or multiple grounding point ground connection, such as: the first grounding point 201, the second grounding point 202 and third grounding point 203.Wherein first connect
Place 201 and the second grounding point 202 can be refering to the above contents, and wherein third grounding point 203 can be set in the first grounding point
201 and second between grounding point 202, and third grounding point 203 is for being grounded 344.Multiple grounding points can reduce sliding part 20
Interference of the clutter that body generates to antenna 404 and slot antenna 402.
Antenna module provided by the embodiments of the present application and electronic equipment are described in detail above.It is used herein
The principle and implementation of this application are described for specific case, and the above embodiments are only used to help understand originally
Application.Meanwhile for those skilled in the art, according to the thought of the application, in specific embodiments and applications
It will change, in conclusion the contents of this specification should not be construed as limiting the present application.
Claims (14)
1. a kind of antenna module, which is characterized in that the antenna module includes:
Shell, the shell include loading plate and the side that connect with the loading plate, and the shell is provided with channel, described logical
Road runs through the side;And
Sliding part, the sliding part are slidably disposed in the channel, and relative to the shell have contraction state and
Stretching state, the sliding part have opposite first end and the second end;
When the sliding part is in contraction state, the first end is located in the channel, and the second end is held with described
The edge of support plate flushes;
When the sliding part is in stretching state, the first end is located in the channel, and the second end is located at described
On the outside of channel;
The first gap is formed between the first end and the loading plate, first gap forms slot antenna.
2. antenna module according to claim 1, which is characterized in that the first end is provided with the first grounding point and
One feeding point, first grounding point is for being grounded, and first feeding point is for connecting feed.
3. antenna module according to claim 2, which is characterized in that the first end is provided with the second grounding point, institute
It states the second grounding point and first grounding point is spaced apart from each other setting, first feeding point is located at first grounding point and institute
It states between the second grounding point, second grounding point is for being grounded.
4. antenna module according to claim 3, which is characterized in that first grounding point and second grounding point point
Not Wei Yu the first end both ends.
5. antenna module according to claim 1, which is characterized in that the sliding part includes main body and side frame, the side
Frame is connected with the main body, and the side frame forms the second gap at least partially about the main body between the main body, institute
Stating antenna module further includes the antenna for being formed in the side frame, and the antenna includes the second feeding point, and second feeding point is used
In connection feed, the slot antenna and the second feeding point described in the antenna duplexer.
6. antenna module according to claim 5, which is characterized in that the first end is provided with the first grounding point, institute
The first grounding point is stated for being grounded;Or
The first end is provided with the first grounding point and the second grounding point, between first grounding point and second grounding point
Every setting, first grounding point is for being grounded, and second grounding point is for being grounded;Or the first end is provided with first
Grounding point, the second grounding point and third grounding point, first grounding point, second grounding point and the third grounding point phase
Mutually interval setting, first grounding point is for being grounded, and second grounding point is for being grounded, and the third grounding point is for connecing
Ground.
7. antenna module according to claim 5, which is characterized in that institute's side frame is located at the periphery of the shell.
8. antenna module according to claim 5, which is characterized in that the slot antenna is connected by second feeding point
Feed is connect, the antenna connects feed by second feeding point.
9. antenna module according to claim 5, which is characterized in that the main body includes third end, the first end
Portion is connected with the second end by the third end, and the side frame is located on the outside of the third end, the main body packet
Include the convex block extended to form along the third end towards the shell direction.
10. antenna module according to claim 9, which is characterized in that one end of the convex block and the first end
End face.
11. antenna module according to claim 9, which is characterized in that the convex block is formed on one side with the main body
Step, the step is far from the shell.
12. antenna module according to claim 1, which is characterized in that be provided between the sliding part and the shell
At least two sliding supports, at least two sliding support is used to support the sliding part, and described at least two is sliding
Dynamic supporting element is used to slide for the sliding part.
13. antenna module according to claim 12, which is characterized in that sliding support described in two of them is arranged in institute
The both ends of first end are stated, one of them described sliding support is provided with the first grounding point, and first grounding point is for connecing
Ground, sliding support described in another one are provided with the second grounding point, and second grounding point is for being grounded.
14. a kind of electronic equipment, which is characterized in that the electronic equipment includes antenna module, and the antenna module is wanted for right
Seek 1 to 13 described in any item antenna modules.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN201821753596.2U CN208820047U (en) | 2018-10-26 | 2018-10-26 | Antenna module and electronic equipment |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
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CN201821753596.2U CN208820047U (en) | 2018-10-26 | 2018-10-26 | Antenna module and electronic equipment |
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Publication Number | Publication Date |
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CN208820047U true CN208820047U (en) | 2019-05-03 |
Family
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Application Number | Title | Priority Date | Filing Date |
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CN201821753596.2U Active CN208820047U (en) | 2018-10-26 | 2018-10-26 | Antenna module and electronic equipment |
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CN (1) | CN208820047U (en) |
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2018
- 2018-10-26 CN CN201821753596.2U patent/CN208820047U/en active Active
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